CV Xiong January 2018 - spms.ntu.edu.sgqihuagroup/data/Xiong/CV_Xiong January 201… · • Young’Researcher’Award,’SPMS,NanyangTechnologicalUniversity,2012 ...

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QIHUA XIONG

Division of Physics and Applied Physics School of Physical and Mathematical Sciences

Nanyang Technological University

21 Nanyang Link, Singapore, 637371 Email: [email protected]

http://www1.spms.ntu.edu.sg/~qihuagroup

ACADEMIC TRAINING

The Pennsylvania State University Ph.D. in Materials Sciences, University Park, PA, USA, 2006 Thesis advisor: Professor Peter C. Eklund

Shanghai Institute of Applied Physics, CAS M.Sc. Physics, Shanghai, P.R. China, 2000

Wuhan University B.Sc. Physics, Wuhan, P.R. China, 1997

PROFESSIONAL EXPERIENCE

• February 2017 – Present: Associate Chair (Faculty), School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore

• September 2016 – Present: Professor of Physics and Electronic Engineering, School of Physical and Mathematical Sciences and School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore

• June 2014 – February 2017: Associate Chair (Research), School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore

• March 2014 – August 2016: Nanyang Associate Professor, School of Physical and Mathematical Sciences, School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore

• June 2009 – March 2014: Nanyang Assistant Professor, School of Physical and Mathematical Sciences, School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore

• 2009 – 2014: Fellow of Singapore National Research Foundation, Singapore • 2006 – 2009: Postdoctoral Research Fellow, Harvard University, with Professor Charles M. Lieber

AWARDS & FELLOWSHIPS

• IPS Nanotechnology Physics Award 2015, Institute of Physics Singapore, 2015 • Singapore National Research Foundation Inaugural Investigatorship Award, Singapore, 2014 • Nanyang Award for Research Excellence, Nanyang Technological University, 2014 • Young Researcher Award, SPMS, Nanyang Technological University, 2012 • School of Physical and Mathematical Sciences Research Award (SPMS NTU), 2010 • Young Scientist Award, selected by New York Academy of Sciences and Japan Society for Promotion of Science (JSPS) to attend Science and Technology in Society (STS) forum held in Kyoto October 2nd-‐6th, 2010 representing Young Scientists from Asia

• Singapore National Research Foundation Fellowship Award, Singapore, 2009 • Pan-‐American Advanced Studies Institute (PASI) fellowship, a jointly supported program between the United State Department of Energy (DOE) and the National Science Foundation (NSF) (2006)

• Graduate Award for Academic Excellence, The Intercollege Materials Science and Engineering Graduate Program, The Pennsylvania State University (2006), given to the graduate student for excellent academic performance especially for research excellence. The only one awarded in the program

• Excellent Graduate Fellowship Award, given to the most outstanding graduate student for academic performance, from Shanghai Institute of Applied Physics, Chinese Academy of Sciences (consecutive years 1998 and 1999)

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• Hui Kai Fellowship Award, given to the most outstanding undergraduate student academic performance, Wuhan University (1996)

• Gui Zhiting-‐Xu Hailan Fellowship Award, given to the most outstanding undergraduate student academic performance, Wuhan University (1995)

• Outstanding Student Award, given to undergraduate student for excellent academic performance, Wuhan University (1994)

AWARDS & FELLOWSHIPS STUDENTS OR RESEARCH FELLOWS OBTAINED

• National 1000 Young Talents by Chinese Government, by Research Fellow Dr. Weigao Xu, 2017 (Joined Nanjing University)

• National 1000 Young Talents by Chinese Government, by Ph.D. student Dr. Dehui Li, 2016 (Joined Huazhong University of Science and Technology)

• National 1000 Young Talents by Chinese Government, by Research Fellow Dr. Qing Zhang, 2015 (Joined Peking University)

• National 1000 Young Talents by Chinese Government, by Research Fellow Dr. Jun Zhang, 2014 (Joined Institute of Semiconductors, Chinese Academy of Sciences)

• National Award for Outstanding Self-‐financed Chinese Students Study Abroad by Chinese Scholarship Council, by Ph.D. student Dr. Xin Lu, 2016

• National Award for Outstanding Self-‐financed Chinese Students Study Abroad by Chinese Scholarship Council, by Ph.D. student Dr. Yanyuan Zhao, 2015

• National Award for Outstanding Self-‐financed Chinese Students Study Abroad by Chinese Scholarship Council, by Ph.D. student Dr. Xinlin Wen, 2015

• National Award for Outstanding Self-‐financed Chinese Students Study Abroad by Chinese Scholarship Council, by Ph.D. student Dr. Dehui Li, 2014

• World Future Foundation Best Ph.D. Prize in Environmental and Sustainability Research, by Ph.D. student Dr. Dehui Li, 2014

• Best Poster Awards, by research fellows Dr. Xinlin Wang and Dr. Andres Granados del Aguila, and Ph.D. student Dr. Xingzhi Wang at 3rd ICON-‐2DMAT, Nanyang Technological University, Singapore, 2017

• Excellent Poster Award, by Research Fellow Dr. Qing Zhang, IUMRS-‐ICAM 2013 at Qingdao. • Excellent Poster Award, by Research Fellow Dr. Xinlong Xu and Ph.D. Student Dr. Yanyuan Zhao, IUMRS-‐ICA 2011 12th International Conference in Asia, Taiwan

• Best Poster Award, ICMAT2011, by Research Fellow Dr. Jun Pan, July 2011

RESEARCH GRANTS

• Singapore Ministry of Education, AcRF Tier 2 Grant (PI), “Probing Charge Dynamics in 2D Layered Semiconductor Heterostructures”, 2018-‐2020, (S$765,993.00)

• Singapore National Research Foundation-‐French National Research Agency, NRF-‐ANR Join Call (PI) “Controlling valley polarization in 2D transition metal dichalcogenides with chiral plasmonic nanostructures (2D Chiral)”, 2018-‐2020, (S$450,000)

• Singapore ASTAR AME Programmatic Fund: “Quantum Technologies for Engineering (QTE) -‐ On-‐Chip Elementary Quantum Logic Unit: SiC Spin-‐Photon Entanglement” (Co-‐PI), 2017-‐2021 (S$3,078,825)

• Singapore Ministry of Education, AcRF Tier 1 Grant (PI), “Engineering Fluorinated Organo-‐Lanthanide Systems for NIR-‐Vis Upconversion Fluorophores”, 2017-‐2019 (S$125,000)

• Singapore National Research Foundation Competitive Research Programme, “Perovskite Optoelectronics: “Multidimensional Perovskites for High Performance Solution-‐Processed Light-‐Emitting Devices”—“Characterizations and Frontier Phenomena” (Project PI), 2015-‐2020 (S$377,650.00)

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• Singapore Ministry of Education, AcRF Tier 2 Grant (PI), “Probing Light-‐Matter Interaction in Emergent 2D and 3D Metalorganic Perovskites”, 2015-‐2018, (S$793,711.00)

• Singapore Ministry of Education, AcRF Tier 1 Grant (PI), “Fluorinated Organo-‐Lanthanide Systems for Laser Cooling and Nanophotonics”, 2015-‐2017, (S$80,000.00)

• Singapore National Research Foundation, Investigatorship Award (PI), “Expanding The Toolbox of Laser Cooling Towards The Next-‐Generation Optical Refrigeration”, 2015-‐2020, (S$2,822,900.00)

• Singapore Ministry of Education, AcRF Tier 2 Grant (PI), “Laser Cooling of Group II-‐VI Semiconductors”, 2014-‐2017, (S$602,358.00)

• US Air Force Office of Scientific Research (AFOSR) Asian Office of Aerospace Research and Development (AOARD) (PI), “Laser Cooling of II-‐VI Semiconductors”, 2013-‐2016, (S$337,718.40)

• Singapore Ministry of Education, AcRF Tier 1 Grant (PI), “Laser Cooling Study on Wide Bandgap Semiconductors Based on Fiber Coupling Technology”, 2014-‐2016, (S$99,538.00)

• Nanyang Technological University, Nanyang Award of Research Excellence Award (PI), “Laser Cooling of Solids”, 2014-‐2015, (S$10,000.00)

• Singapore Ministry of Education, AcRF Tier 2 Grant (PI), “Optical Probing of 2D Dichalcogenides Crystals for Next Generation Valleytronics”, 2013-‐2016, (S$638,757.00)

• Agency for Science, Technology and Research, Science & Engineering Research Council public sector funding (SERC PSF) (Co-‐PI), “Attosecond x-‐ray metrology of valence electron dynamics in functional nanomaterials”, 2013-‐2016, (S$948,000.00)

• Singapore Ministry of Education, AcRF Tier 2 Grant (Co-‐PI), “Active Plasmonic Structures and Their Applications in Biosensing”, 2012-‐2015, (S$587,500.00/($50,000))

• Singapore Ministry of Education, AcRF Tier 2 Grant (PI), “Coupling between Surface Plasmons and Excitons: Towards Sub-‐wavelength Photonics”, 2012-‐2015, (S$938,438.00)

• French-‐Singaporean Scientific “Merlion” Project (PI), “Near-‐Field Photochemical Imaging Studies on Artificial Metallic Nanostructures and Applications”, (S$25,000.00)

• NTU Central Strategic Initiative of Inter-‐disciplinary Strategic Competitive Fund (PI), “Large Scale Design-‐based Functional Nanomaterials”, 2011-‐2013, (S$250,000.00)

• Singapore Ministry of Education, AcRF Tier 2 grant (Co-‐PI), “Quantum transport and optical spectroscopy studies of topological insulator”, 2011-‐2014, (S$919,054.00)

• National Research Foundation Competitive Research Program (NRF CRP, Project PI), “Excitonics Science and Technology Towards Revolutionary Semiconductor Lighting: Ultra-‐Efficiency Excitonic Energy Transfer for Next-‐Generation Lighting and Displays”, 2011-‐2016, (S$9,989,715.21/S$960,000.00)

• School of Physical and Mathematical Sciences Research Award grant (NTU) (PI), “Solid State Nanopore Devices for Single Molecule Biophysics and Sequencing”, 2011-‐2014, (S$75,000.00)

• Singapore National Research Foundation Fellowship (PI), “Optical Properties of Novel Nanomaterials and Field-‐Effect Transistor Nanopore Devices for Single Molecular Detection and DNA Sequencing”, 2009-‐2012, (S$3,629,983.20)

• Nanyang Technological University Start-‐up Grant (PI), 2009-‐2012, (S$1,004.000.00)

PROFESSIONAL SOCIETY MEMBERSHIPS & ACTIVITIES

• American Physical Society, Materials Research Society, Optical Society of America and SPIE. • Serve as reviewers for Nature Publishing Group (Nature, Nature Nanotechnology, Nature Materials, Nature Communications and Scientific Report), American Physical Society (Physical Review Letters and Physical Review B), American Chemical Society (Nano Letters, Journal of American Chemical Society, ACS Nano, Crystal Growth and Design, ACS Applied Materials and Interfaces, Journal of Physical

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Chemistry B, Langmuir, and Chemistry of Materials), Optical Society of America (Optics Express, Optical Letters and Journal of the Optical Society of America B), Royal Society of Chemistry (Chemical Communications, Chemical Science, Energy and Environmental Sciences, Nanoscale, Journal of Materials Chemistry, CrystEngComm, Physical Chemistry and Chemical Physics, RSC Advances and Analyst), Wiley-‐VCH (Angewandte Chemie International Edition, Advanced Materials, Advanced Functional Materials, Advanced Optical Materials, Laser and Photonics Reviews, Solar RRL, Physica Status Solidi and Journal of Raman Spectroscopy), Elsevier (Nano Today, Carbon and Nano Energy), American Institute of Physics (Applied Physics Letters and Journal of Applied Physics), Springer (Nano Research, Science China Materials, Nanoscale Research Letters) and IEEE Electron Device Letter.

• Proposal review panel for Science Foundation Ireland (SFI), National Research Foundation of Korea, US Department of Energy, Research Grant Council of Hong Kong, US Civilian Research and Development Foundation, Center for Functional Nanomaterials of Brookhaven National Laboratory (BNL), American Chemical Society Petroleum Research Fund and Singapore National Research Foundation.

• Reviewer panel for State Natural Science Award of the P.R. China; Reviewer panel for Tan Kah Kee Science Award Foundation, P.R. China; Reviewer panel for Qiu Shi Outstanding Young Scholar Award, Qiu Shi Science & Technologies Foundation, P.R. China.

• Served as topical editor for Proceeding of the National Academy of Sciences (PNAS) of America, 2015. • Editorial Board and International Advisory Member, ACS Photonics, since 2017; Scientific Reports, Nature Publishing Group, since 2015; Science China Materials, Springer (2014-‐2017); Nano Research, Springer, since 2014.

• Served as the conference chair of the 3rd International Conference on 2D Materials and Advanced Technology (ICON-‐2DMAT), 2017.

• Served as the symposium chairs (including leading chair) for IUMRS-‐ICAM 2017 (The 15th International Conference on Advanced Materials), MRS Fall Meeting at Boston, 2016; MRS Spring Meeting at San Francisco, 2015; MRS Fall Meeting at Boston, 2013; International Conference on Materials and Advanced Technology 2015 and 2011 (ICMAT 2015 and ICMAT 2011).

• Served as the organizing committee member for the 9th Asian and Oceanian Photochemistry Conference, 4-‐8th December, Singapore 2016; Asian Spectroscopy Conference, December 2013; IEEE International Nanoelectronics Conference 2013 (INEC2013), Singapore; Global Photonics Conference 2010, Singapore.

• Editor of Semiconductor Nanowires: Materials, Synthesis, Characterization and Applications, published by Woodhead Publishing, 2015; Lead guest editor of special issue on semiconductor nanowires and nanotubes: from fundamentals to diverse applications, Journal of Nanotechnology, 2011; Guest editor of focused issue on Recent Advance in Nanowire Research, Nanoscale, 2011.

RESEARCH INTEREST

Dr. Qihua Xiong’s research is motivated by the understanding of the light-‐matter interactions in quantum matter by optical spectroscopy. His research covers the rational synthesis of functional semiconducting nanomaterials, systematic investigations on their physical properties by steady-‐state and transient optical spectroscopy at quantum size regime and practical applications in nanoelectronics, nanophotonics and solid state lighting. His group is notable for recent breakthrough discovery of laser cooling of semiconductors and sideband Raman cooling of optical phonons, as well as the low-‐frequency shear and breathing modes, and the correlated fluorescence blinking in 2D layered semiconductor materials and heterostructures. Most recently, Dr. Xiong has ventured into the field of strong light-‐matter interactions in 2D semiconductors and perovskite crystals, with the recent demonstration of room temperature exciton polariton Bose Einstein condensate and lasing in perovskite crystals. Dr. Xiong has published more than 180 papers, which have attracted more than 6800 citations with an H-‐index of 49.

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TEACHING EXPERIENCE

The Pennsylvania State University University Park, PA, USA Mentor for Research Experiences for Undergraduate (REU), Summer 2003 Nanyang Technological University Singapore, since 2009 Taught undergraduate level Introduction to Electrodynamics, since 2009 Taught undergraduate level Optics, Vibration and Waves, since 2013 Taught undergraduate/graduate level Topics in Applied Physics: Fundamental Optical Processes in Low-‐Dimensional Systems, since 2017

PHD/MSC/FYP STUDENTS SUPERVISED

1. Dehui Li, “Optical and Optoelectronic Properties of One-‐Dimensional CdS Nanostructures” (2014), currently Professor of Optoelectronics, in Huazhong University of Science and Technology at China (National Thousand Young Talent, 2015 batch)

2. Stephanie Lynn Dodson, “Plasmonic Nanoantenna Arrays: Optical Properties and their Applications in Biosensing” (2015), currently Procedure Program Analyst at Procedure Solutions Management, LLC, Colorado, USA

3. Yanyuan Zhao, “Raman Spectroscopy of layered metal chalcogenide 2D crystals” (2015), currently Process TD Engineer at Intel Corporation

4. Xinglin Wen, “Split Ring Resonators: Flexible and tunable metamaterials, Fano coupling and their applications in Sensing” (2016), currently Research Fellow at NTU, Singapore

5. Yanwen Yuan, “High -‐Yield Synthesis, Optical Properties and Photocatalytic Performance of Graphitic Carbon Nitride” (2016), currently Research Fellow at NUS, Singapore

6. Xin Lu, “Synthesis and Optical Properties of Atomically Thin Transition Metal Dichalcogenides” (2017), currently Postdoctoral Fellow at Physics Department of Emory University

7. Xingzhi Wang, “Optical Properties of Two-‐Dimensional Metal Phosphorus Trichalcogenides Crystals” (2017), currently Postdoctoral Fellow at Chemistry Department of Boston University

8. Bin Xia, “Electrical Transport Studies of Topological Insulators” (2014) (co-‐supervision) 9. Binbin Zhu, “Growth and fabrication techniques for InGaN/GaN-‐based light-‐emitting diodes from

planar structure to micro-‐wall structure” (2017), currently Staff Scientist at Kuang-‐Chi Institute of Advanced Technology (co-‐supervision)

10. Sudhanshu Shukla, “Electrical charge transport and optical properties of iron pyrite” (2017) (co-‐supervision), currently a Postdoctoral Research Fellow at NTU, Singapore

11. Weiwei Liu, exchange Ph.D. student from Huazhong University of Science and Technology, China. Currently, Lecturer at the School of Physics, Huazhong University of Science and Technology.

12. Zhi Yang, exchange Ph.D. student from Xi’an Jiao Tong University, China. Currently Lecturer at Xi’an Jiao Tong University.

13. Shuxian Wang, exchange Ph.D. student from Shandong University, China. Currently Lecturer at Jinan University.

14. Renjie Chen, “Silicon Nanowire Growth Using Low Pressure Chemical Vapor Deposition, Optical and Optoelectrical Properties Tailoring” (M.Sc. thesis, 2013), currently Ph.D. student at UCSD, USA.

15. Chiyuan Zhang, “Laser Cooling of Cadmium Sulfide (CdS) Single Crystals” (M.Eng. thesis, 2015). 16. Zhenpeng Li, “Plasmonic Nanostructures and Their Coupling to Semiconductor Light Emitters”

(M.Sc. thesis, 2016). 17. Diane Ansermet (exchange student), currently Ph.D. student in Nanyang Technological

University. 18. Viktor Bogdanov, “Optical properties of fluorinated conjugated molecules” (M.Sc. thesis

submitted, 2017) 19. Yang Jiu (FYP), currently pursuing Ph.D. Cambridge University 20. Muhammad Iqbal Bakti Utama (FYP), currently pursuing Ph.D. at UC Berkeley 21. Yue Zhu (FYP), currently pursuing Ph.D. at University of Texas at Austin.

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CURRENT PHD STUDENTS BEING SUPERVISED

1. Son Tung Ha, “Optical properties of organo-‐metallic perovskites and their application in dye-‐sensitized solar cells” (since 2013)

2. Rui Su, “Strong light-‐matter coupling in all-‐inorganic perovskite crystals” (since 2014) 3. Lulu Zhang, “Indium nanoparticles for ultraviolet plasmonics” (since 2014) 4. Sheng Liu, “Semiconducting and photonic properties of silicon carbide: nanostructures and

defects” (since 2015) 5. Ha Thi Thu Do, “The transient spectroscopy investigations of emergent low-‐dimensional

materials” (since 2015) 6. Ryan Sean Krupp, “Laser cooling of quantum emitters” (since 2016) 7. Jiaxin Zhao, “Strong light-‐matter interactions in atomically thin 2D semiconductors” (since 2016) 8. Di Bao, “Optical properties of II-‐VI semiconductor nanoribbons” (since 2016)

RESEARCH FELLOWS SUPERVISED AND BEING SUPERVISED

1. Dr. Zeping Peng, currently Professor at Southwest University, Chongqing, China. 2. Dr. Kaushik Ghosh, currently Associate Dean and Assistant Professor (Scientist D) at the

Institute of Nano Science & Technology, India. 3. Dr. Xinlong Xu, currently Professor at Northwest University, Xi’An, China 4. Dr. Jun Pan, currently Professor at Central South University, Changsha, China 5. Dr. Ajay Soni, currently Assistant Professor of Physics, School of Basic Sciences, Indian Institute

of Technology at Mandi, India 6. Dr. Cuong Cao, currently Lecturer, School of Biological Sciences, Queen’s University Belfast,

United Kingdom 7. Dr. Lijian Huang, currently Associate Professor at Changchun Institute of Applied Chemistry,

Chinese Academy of Sciences, Changchun, China. 8. Dr. Bo Peng, currently Professor at the National Engineering Research Center of Electromagnetic

Radiation Control Materials, School of Microelectronics and Solid State Electronics, University of Electronic Science and Technology of China, Chengdu, Sichuan, China.

9. Dr. Guangyuan Li, currently Postdoctoral Research Fellow at Department of Physics, University of Sydney, Australia

10. Dr. Li Zhou, currently Associate Professor at School of Physics and Technology, Wuhan University, Wuhan, China.

11. Dr. Jun Zhang, currently Professor at the Institute of Semiconductors, Chinese Academy of Sciences, Beijing China (National Thousand Young Talent, 2014 batch).

12. Dr. Chao Shen, currently Associate Professor at the Institute of Semiconductors, Chinese Academy of Sciences, Beijing China

13. Dr. Yanqin Wen, currently working in Singapore 14. Dr. Yong Zhou, currently working in industry in Suzhou 15. Dr. Kezhao Du, currently Postdoctoral Research Fellow at Duke University, USA. 16. Dr. Qing Zhang, currently Professor at the Department of Materials Sciences and Engineering,

Peking University (National Thousand Young Talent, 2015 batch). 17. Dr. Huakang Yu, currently Associate Professor at School of Physics, South China University of

Technology, Guangzhou, China 18. Dr. Samuel Owen Man Hon, Patent Agent at Spruson & Ferguson (Asia). 19. Dr. Sandhya Chintalapati, currently Research Fellow at Department of Physics, National

University of Singapore 20. Dr. Zhanhua Wei, currently Professor at Hua Qiao University, Xiamen, China. 21. Dr. Chaohua Zhang, currently Associate Professor at Department of Materials Science and

Engineering, Shenzhen University, Shenzhen, China. 22. Dr. Qiang Cao, Ph.D. graduated from Institute of Physics, Chinese Academy of Sciences 23. Dr. Weigao Xu, Ph.D. graduated from Peking University

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24. Dr. Huanqing Ye, Ph.D. graduated from Queen Mary College at London 25. Dr. Weijie Zhao, Ph.D. graduated from Institute of Semiconductor, Chinese Academy of Sciences 26. Dr. Jun Xing, Ph.D. graduated from East China University of Science and Technology 27. Dr. Andres Granados del Aguila, Ph.D. graduated from Radboud University Nijmegen,

Netherlands. 28. Dr. Xinglin Wen, Ph.D. graduated from Nanyang Technological University 29. Dr. Xue Liu, Ph.D. graduated from Tulane University, USA

INVITED REVIEW ARTICLES

1. S. Shukla, J.W. Ager, Q.H. Xiong and T. Sritharan*, “Scientific and technological assessment of ion pyrite for use in solar devices”, Energy Technol. 6, 8-‐20 (2018)

2. Q. Zhang*, R. Su, W.N. Du, X.F. Liu, L.Y. Zhao, S.T. Ha and Q.H. Xiong*, “Advances in small perovskite-‐based lasers”, Small Methods 1, 1700163 (2017)

3. S.T. Ha, R. Su, J. Xing, Q. Zhang and Q.H. Xiong*, “Metal halide perovskite nanomaterials: synthesis and applications”, Chemical Science 8, 2522-‐2536, DOI: 10.1039/C6SC04474C (2017)

4. X. Lu, X. Luo, J. Zhang, S.Y. Quek* and Q.H. Xiong*, “Lattice vibrations and Raman scattering in two-‐dimensional layered materials beyond graphene”, Nano Research 9, 3559-‐3597 (2016)

5. X.L. Xu, Q. Zhang, J. Zhang, Y.X. Zhou and Q.H. Xiong*, "Taming excitons in II-‐VI semiconductor nanowires and nanobelts", J. Phys. D: Appl. Phys. 47, 394009 (2014)

6. J. Zhang, D.H. Li and Q.H. Xiong*, “Breakthrough of optical refrigeration: Laser cools a semiconductor by 40 K”, Laser Focus World 49, 53-‐55 (2013) (invited article)

7. M.I.B. Utama, Q. Zhang, J. Zhang, Y.W. Yuan, F.J. Belarre, J. Arbiol and Q.H. Xiong*, “Recent developments and future directions in the growth of nanostructures by van der Waals epitaxy”, Nanoscale 5, 3570-‐3588, (2013) (Invited Feature Article)

8. B. Guzelturk, P. Ludwig, H. Martinez, Q. Zhang, Q.H. Xiong, H.D. Sun, X.W. Sun, A.O. Govorov and H.V. Demir*, “Excitonics of semiconductor quantum dots and wires for lighting and displays”, Lasers & Photonics Rev. 8, 73-‐93 (2013) (Cover Highlight)

9. M.I.B. Utama, J. Zhang, R. Chen, X.L. Xu, D.H. Li, H.D. Sun and Q.H. Xiong*, "Synthesis and optical properties of II-‐VI 1D nanostructures", Nanoscale 4, 1422-‐1435 (2012)

10. M.W. Cole, V.H. Crespi, M.S. Dresselhaus, G. Dresselhaus, J.E. Fischer, H.R. Gutierrez, K. Kojima, G.D. Mahan, A.M. Rao, J.O. Sofo, M. Tachibana, K. Wako and Q.H. Xiong, "Structural, electronic, optical and vibrational properties of nanoscale carbon and nanowires: a colloquial review", Journal of Physics: Condensed Matter 22, 334201, (2010)

11. L.C. Lew Yan Voon*, Y. Zhang, B. Lassen, M. Willatzen, Q.H. Xiong and P.C. Eklund, "Electronic properties of semiconductor nanowires", J. Nanosci. Nanotechnol. 8, 1-‐26 (2008)

12. K.W. Adu, Q.H. Xiong, H.R. Gutierrez, G. Chen, P.C. Eklund*, "Raman scattering as a probe of phonon confinement and surface optical modes in semiconducting nanowires", Appl. Phys. A (materials science and processing) 85, 287–297 (2006)

13. Q.H. Xiong, G. Chen, H.R. Gutierrez, P.C. Eklund*, "Raman scattering studies of individual polar semiconducting nanowires: phonon splitting and antenna Effects", Appl. Phys. A (materials science and processing) 85, 299–305 (2006)

PEER-‐REVIEWED PUBLICATION

1. C.Y. Jiang, W.G. Xu, A. Rasmita, Z.M. Huang, K. Li, Q.H. Xiong* and G.B. Gao*, “Microsecond dark-‐exciton valley polarization memory in two-‐dimensional heterostructures”, Nature Communucations, in press (2018)

2. X.L. Wen, W.G. Xu, W.J. Zhao, J.B. Khurgin and Q.H. Xiong*, “Plasmonic hot carriers controlled second harmonic generation in WSe2 bilayers”, Nano Lett., in press(2018)

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3. H.Q. Ye, G.F. Liu, S. Liu, D. Casanova*, X. Ye, X.T. Tao, Q.C. Zhang* and Q.H. Xiong*, “Molecular-‐barrier-‐enhanced aromatic fluorophores in co-‐crystals with unity quantum efficiency”, Angew. Chem. Int. Ed., DOI: 10.1002/anie.201712104 (2018)

4. W.J. Zhao and Q.H. Xiong*, “Nanoscale interfaces made easily”, Nature 553, 32-‐34 (2018) (News and Views)

5. H.Q. Ye, V. Bogdanov, S. Liu, S. Vajandar, T. Osipowicz, I. Hernández, Q.H. Xiong*, “Bright photon upconversion on organic lanthanide molecules through localized thermal radiation”, J. Phys. Chem. Lett. 8, 5695-‐5699 (2017)

6. H. Li, J.B. Wu, F.R. Ran, M.L. Lin, X.L. Liu, Y.Y. Zhao, X. Lu, Q.H. Xiong, J. Zhang, W. Huang, H. Zhang* and P.H. Tan*, “Interfacial interactions in van der Waals heterostructures of MoS2 and graphene”, ACS Nano 11, 11714-‐11723 (2017)

7. S. Feng, C.X. Cong*, N. Peimyoo, Y. Chen, J.Z. Shang, C.J. Zou, B.C. Cao, L.S. Wu, J. Zhang, M. Eginligil, X.Z. Wang, Q.H. Xiong, A. Ananthanarayanan, P. Chen, B.L. Zhang, T. Yu*, “Tunable excitonic emission of monolayer WS2 for the optical detection of DNA nucleobases”, Nano Research, DOI: 10.1007/s12274-‐017-‐1792-‐z (2017)

8. T. Thu Ha Do, A. Granados del Aguila, C. Cui, J. Xing, Z.J. Ning* and Q.H. Xiong*, “Optical study on intrinsic exciton states in a high-‐quality CH3NH3PbBr3 single crystal”, Phys. Rev. B 96, 075308 (2017)

9. L.L. Zhang, J. Xing, X.L. Wen, J.W. Chai, S.J. Wang, and Q.H. Xiong*, “Plasmonic heating from indium nanoparticles on a floating microporous membrane for enhanced solar seawater desalination”, Nanoscale 9, 12843-‐12849 (2017)

10. Y.Y. Jiang, P.K. Upputuri, C. Xie, Y. Lyu, L.L. Zhang, Q.H. Xiong, M. Pramanik and K.Y. Pu*, “Broadband absorbing semiconducting polymer nanoparticles for photoacoustic imaging in second near-‐infrared window”, Nano Lett. 17, 4964-‐4969 (2017)

11. C.E. Wilhelm, M.I.B. Utama, G. Lehoucq, Q.H. Xiong, C. Soci, D. Dolfi, A. De Rossi, S. Combrié, “Broadband Tunable Hybrid Photonic Crystal-‐Nanowire Light Emitter”, IEEE Journal of Selected Topics in Quantum Electronics 23, 1-‐8 (2017)

12. Q.H. Tan, Y.J. Sun, X.L. Liu, Y.Y. Zhao, Q.H. Xiong, P.H. Tan* and J. Zhang*, “Observation of forbidden phonons, Fano resonance and dark excitons by resonance Raman scattering in few-‐layer WS2”, 2D Materials 4, 031007 (2017)

13. X. Lu, M.I.B. Utama, X.Z. Wang, W.G. Xu, W.J. Zhao, M.H.S. Owen and Q.X. Xiong*, “Gate-‐tunable resonant Raman spectroscopy of bilayer MoS2, Small 13, 1701039(2017)

14. K.L. Ke, X.L. Wen, D.Y. Zhao, R.C. Che, Q.H. Xiong and Y. Long*, “Controllable fabrication of two-‐dimensional patterned VO2 nanoparticle, nanodome, and nanonet arrays with tunable temperature-‐dependent localized surface plasmon resonance”, ACS Nano 11, 7542-‐7551 (2017)

15. C. Shen, W.N. Du, Z.Y. Wu, J. Xing, S.T. Ha, Q.Y. Shang, W.G. Xu, Q.H. Xiong*, X.F. Liu* and Q. Zhang*, “Thermal conductivity of suspended single crystal CH3NH3PbI3 platelets at room temperature”, Nanoscale 9, 8281-‐8287 (2017)

16. R. Su, C. Diederichs, J. Wang, T.C.H. Liew, J.X. Zhao, S. Liu, W. Xu, Z.H. Chen, and Q.H. Xiong*, “Room-‐temperature polariton lasing in all-‐inorganic perovskite nanoplatelets”, Nano Lett. 17, 3982–3988 (2017)

17. C.H. Zhang, H.K. Ng, Z. Li, K.A. Khor and Q.H. Xiong*, “Minority carrier blocking to enhance the thermoelectric performance of solution-‐processed BixSb2–xTe3 nanocomposites via a liquid-‐phase sintering process”, ACS Appl. Mater. Inter. 9, 12501-‐12510 (2017)

18. T. Ye, J. Xing, M. Petrovic, S. Chen, V. Chellappan, G.S. Subramanian, T.C. Sum, B. Liu, Q.H. Xiong and S. Ramakrishna*, “Temperature effect of the compact TiO2 layer in planar perovskite solar cells: An interfacial electrical, optical and carrier mobility study”, Solar Energy Materials and Solar Cells 163, 242-‐249 (2017)

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19. W.W. Liu, J. Xing, J.X. Zhao, X.L. Wen, K. Wang, P.X. Lu* and Q.H. Xiong*, “Giant two-‐photon absorption and its saturation in 2D organic-‐inorganic perovskite”, Adv. Optical Mater. 5, 1601045 (2017)

20. P. Chen, N.T. Tran, X.L. Wen, Q.H. Xiong and B. Liedberg*, “Inflection point of the localized surface plasmon resonance peak: A general method to improve the sensitivity”, ACS Sensors 2, 235-‐242 (2017)

21. Z.Z. Luo, Y. Zhang. C.H. Zhang, H.T. Tan, Z. Li, A. Abutaha, X.L. Wu, Q.H. Xiong, K.A. Khor, K. Hippalgaonkar, J.W. Xu, H.H. Hng and Q.Y. Yan*, “Multifunctional 0D-‐2D Ni2P Nanocrystals-‐Black Phosphorus Heterostructure”, Adv. Energy Mater. 7, 1601285 (2017)

22. Y. Zhou, A. Rasmita, K. Li, Q.H. Xiong, I. Aharonovich* and W.B. Gao*, “Coherent control of a strongly driven silicon vacancy optical transition in diamond”, Nature Communications 8, 14451. DOI: 10.1038/ncomms14451 (2017)

23. K.Z. Du, X.Z. Wang, J. Zhang, X.F. Liu, C. Kloc*, and Q.H. Xiong*, “CdS bulk crystal growth by optical floating zone method: strong photoluminescence upconversion and minimum trapped state emission”, Optical Engineering 56, 011109. DOI:10.1117/1.OE.56.1.011109 (2017)

24. W.G. Xu, W.W. Liu, J. F. Schmidt, W.J. Zhao, X. Lu, T. Raab, C. Diederichs, W.B. Gao, D. V. Seletskiy, and Q.H. Xiong*, “Correlated fluorescence blinking in two-‐dimensional semiconductor heterostructures”, Nature 541, 62-‐67 (2017)

25. T. Ye, X. Jiang, D.Y. Wang, X.Z. Wang, J. Xing, T. Venkatesan, Q.H. Xiong and S. Samakrishna*, “Ultrafast photogenerated hole extraction/transport behavior in a CH3NH3PbI3/carbon nanocomposite and its application in a metal-‐electrode-‐free solar cell”, ChemPhysChem 17, 4102-‐4109 (2016)

26. H.Y. Wang, S.F. Hung, Y.Y. Hsu, L.L. Zhang, J.W. Miao, T.S. Chan, Q.H. Xiong and B. Liu*, “In-‐situ spectroscopic identification of mu-‐OO bridging on spinel Co3O4 water oxidation electrocatalyst”, J. Phys. Chem. Lett. 7, 4847-‐4853 (2016)

27. J.X. Fang*, J. Li, C.F. Tian, Q.Q. Gao, X.J. Wang, N.Y. Gao, X.L. Wen, C.S. Ma, H.J. You, Z.L. Yang, Q.H. Xu, Q.H. Xiong and Z.Y. Li, “Gold nanorings synthesized via a stress-‐driven collapse and etching mechanism”, NPG Asia Materials 8, e323; doi: 10.1038/am.2016.163 (2016)

28. A. Perumal, S. Shendre, M.J. Li, Y.K.E. Tay, V.K. Sharma, S. Chen, Z.H. Wei, Q. Liu, Y. Gao, P.J.S. Buencosejo, S.T. Tan, C.L. Gan, Q.H. Xiong, T.C. Sum and H.V. Demir*, “High brightness formamidinium lead bromide perovskite nanocrystal light emitting devices”, Sci. Rep. 6, 36733 (2016)

29. C.H. Zhang, M. de la Mata, Z. Li, F.J. Belarre, J. Arbiol, K.A. Khor, D. Poletti, B.B. Zhu, Q.Y. Yan, and Q.H. Xiong*, “Enhanced thermoelectric performance of solution-‐derived bismuth telluride based nanocomposites via liquid-‐phase sintering”, Nano Energy 30, 630-‐638 (2016)

30. X.Z. Wang, K.Z. Du, W.W. Liu, P. Hu, X. Lu, W.G. Xu, C. Kloc, and Q.H. Xiong*, “Second-‐harmonic generation in quaternary atomically thin layered AgInP2S6 crystals,” Appl. Phys. Lett. 109, 123103 (2016)

31. Z.H. Wei, A. Perumal, R. Su, S. Sushant, J Xing, Q. Zhang, S.T. Tan, H.V. Demir, and Q.H. Xiong*, “Solution-‐processed highly bright and durable cesium lead halide perovskite light-‐emitting diodes”, Nanoscale 8, 18021-‐18026 (2016)

32. X.Z. Wang, K.Z. Du, Y.Y. Liu, P. Hu, J. Zhang, Q. Zhang, M.H. Owen, X. Lu, C.K. Gan, P. Sengupta, C. Kloc and Q.H. Xiong*, “Raman spectroscopy of atomically thin two-‐dimensional magnetic iron phosphorus trisulfide (FePS3) crystals”, 2D Materials 3, 031009 (2016)

33. Q. Zhang, R. Su, X.F. Liu, T.Z. Sum* and Q.H. Xiong*, “High quality whispering-‐gallery-‐mode lasing from cesium lead halide perovskite nanoplatelets”, Adv. Funct. Mater. 26, 6238-‐6245 (2016)

34. J. Zhang*, Q. Zhang, X.Z. Wang, K. L. Kwek and Q.H. Xiong*, “Resolved sideband Raman cooling of an optical phonon in semiconductor materials”, Nature Photonics 10, 600-‐605 (2016)

10

35. J. Xing, F. Yan, Y.W. Zhao, S. Chen, H.K. Yu, Q. Zhang, R.G. Zeng, H.V. Demir, X.W. Sun, A. Huan and Q.H. Xiong*, “High-‐efficiency light-‐emitting diodes of organometal halide perovskite amorphous nanoparticles”, ACS Nano 10, 6623-‐6630 (2016)

36. R.S. Singh, D.H. Li, Q.H. Xiong, I. Santoso, X.J. Yu, W. Chen, A. Rusydi and A.T.S. Wee*, “Anomalous photoresponse in the deep-‐ultraviolet due to resonant excitonic effects in oxygen plasma treated few-‐layer graphene”, Carbon 106, 330-‐335 (2016)

37. P. Hu, J. Ye, X.X. He, K.Z. Du, K.K. Zhang, X.Z Wang, Q.H. Xiong, Z. Liu, J. Jiang and C. Kloc*, “Control of radiative exciton recombination by charge transfer induced surface dipoles in MoS2 and WS2 monolayers”, Sci. Rep. 6, 24105 (2016)

38. S. Shukla, G.C. Xing, H. Ge, R.R. Prabhakar, S. Mathew, Z.H. Su, V. Nalla, T. Venkatesan, N. Mathews, T. Sritharan, T.C. Sum, and Q.H. Xiong*, "Origin of Photocarrier Losses in Iron Pyrite (FeS2) Nanocubes", ACS Nano 10, 4431-‐4440 (2016)

39. X.L. Wen and Q.H. Xiong*, “A large scale perfect absorber and optical switch based on phase change material (Ge2Sb2Te5) thin film”, Science China Materials 59, 165-‐172 (2016)

40. S.T. Ha, C. Shen, J. Zhang and Q.H. Xiong*, “Laser cooling of organic-‐inorganic lead halide perovskites”, Nature Photonics 10, 115-‐121 (2016)

41. B. Peng*, X. Lu, E. Mutlugun, S. Chen, C.H.A. Huan, S.F. Yu, H.V. Demir and Q.H. Xiong*, "Exciton dynamics in luminescent carbon nanodots: electron-‐hole exchange interaction", Nano Research 9, 549-‐559 (2016)

42. K.Z. Du, X.Z. Wang, Y. Liu, P. Hu, M.I.B. Utama, C.K. Gan, Q.H. Xiong* and C. Kloc*, “Weak Van der Waals stacking, wide-‐range band gap and Raman study on ultrathin layers of metal phosphorus trichalcogenides”, ACS Nano 10, 1738-‐1743 (2016)

43. Q. Zhang, X.F. Liu, M.I.B. Utama, G.C. Xing, T.C. Sum* and Q.H. Xiong*, “Phonon-‐assisted anti-‐Stokes lasing in ZnTe nanoribbons”, Adv. Mater. 28, 276-‐283 (2016)

44. X. Lu, M.I.B Utama, J.H. Lin, X. Luo, Y.Y. Zhao, J. Zhang, S.T. Pantelides, W. Zhou, S.Y. Quek and Q.H. Xiong*, "Rapid and nondestructive identification of polytypism and stacking sequences in few-‐layer molybdenum diselenide by Raman spectroscopy", Adv. Mater. 27, 4389-‐4522 (2015)

45. W.G. Xu, Y.Y. Zhao, C. Shen, J. Zhang and Q.H. Xiong*, "Phonon-‐assisted upconversion photoluminescence in monolayer MoSe2 and WSe2", Acta Chim. Sinica 73, 959 (2015)

46. X. Luo, X. Lu, C.X. Cong, T. Yu, Q.H. Xiong and S.Y. Quek*, "Stacking sequence determines Raman intensities of observed interlayer shear modes in 2D layered materials – A general bond polarizability model", Sci. Rep. 5, 14565 (2015)

47. S.X. Wang, Y.X Zhang, J. Xing, X.F. Liu, H.H. Yu*, A. D. Lieto, M. Tonelli, T.C. Sum, H.J. Zhang* and Q.H. Xiong*, "Nonlinear optical response of Au nanorods for broadband pulse modulation in bulk visible lasers", Appl. Phys. Lett. 107, 161103 (2015)

48. S.X. Wang, Y.X. Zhang, R. Zhang, H.H. Yu*, H.J. Zhang,* and Q.H. Xiong*, "High-‐Order Nonlinearity of Surface Plasmon Resonance in Au Nanoparticles: Paradoxical Combination of Saturable and Reverse-‐Saturable Absorption", Adv. Opt. Mater. 3, 1342-‐1348 (2015)

49. S. Chintalapati, L. Shen, Q.H. Xiong, and Y.P. Feng*, "Magnetism in phosphorene: Interplay between vacancy and strain", Appl. Phys. Lett. 107, 072401 (2015)

50. K.Z. Du, A. Chaturvedi, X.Z. Wang, Y. Zhao, K.K. Zhang, M.I.B. Utama, P. Hu, H. Jiang, Q.H. Xiong and C. Kloc*, "Plasma-‐enhanced microwave solid-‐state synthesis of cadmium sulfide: reaction mechanism and optical properties", Dalton Trans. 44, 13444-‐13449 (2015)

51. H.K. Yu, D. Talukdar, W.G. Xu, J.B. Khurgin* and Q.H. Xiong*, "Charge-‐Induced Second-‐Harmonic Generation in Bilayer WSe2", Nano Lett. 15(8), 5653-‐5657 (2015)

52. Z. Yang, M.Q. Wang, S. Shuka, Y. Zhu, J.P. Deng, H. Ge, X.Z. Wang* and Q.H. Xiong*, "Developing seedless growth of ZnO micro/nanowire arrays towards ZnO/FeS2/CuI P-‐I-‐N photodiode application", Sci. Rep. 5, 11377 (2015)

11

53. D.H. Li, Y. Liu, M. de la Mata, C. Magen, J. Arbiol, Y.P. Feng and Q.H. Xiong*, "Strain-‐induced spatially indirect exciton recombination in zinc-‐blende/wurtzite CdS heterostructures", Nano Research 8, 3035-‐3044 (2015)

54. G.Y. Li, X.F. Liu, X.Z. Wang, Y.W. Yuan, T.C. Sum and Q.H. Xiong*, "Purified plasmonic lasing with strong polarization selectivity by reflection", Opt. Express. 23, 15657-‐15669 (2015)

55. L.L. Zhang, Y.W. Yuan, X.L. Wang, Y. Li, C. Cao* and Q.H. Xiong*, "A coordination and ligand replacement based three-‐input colorimetric logic gate sensing platform for melamine, mercury ions, and cysteine", RSC Adv. 5, 59106 – 59113 (2015)

56. J. Xing, X.F. Liu, Q. Zhang, S.T. Ha, Y.W. Yuan, C. Shen, T.C. Sum and Q.H. Xiong*, "Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-‐temperature nanolasers", Nano Lett. 15, 4571 -‐ 4577 (2015)

57. Y.W. Yuan, L.L. Zhang, J. Xing, M.I.B. Utama, X. Lu, K.Z. Du, Y.M. Li, X. Hu, S.J. Wang, A. Genç, R. Dunin-‐Borkowski, J. Arbiol and Q.H. Xiong*, "High-‐yield synthesis and optical properties of g-‐C3N4", Nanoscale 7, 12343-‐12350 (2015)

58. C.H. Zhang, Z.P. Peng*, Z. Li, L.G. Yu, K.A. Khor and Q.H. Xiong*, "Controlled growth of bismuth antimony telluride BixSb2-‐xTe3 nanoplatelets and their bulk thermoelectric nanocomposites", Nano Energy 15, 688-‐696 (2015)

59. X. Luo, X. Lu, G.K. Wai Koon, A.H.C. Neto, B. Özyilmaz*, Q.H. Xiong*, and S.Y. Quek*, "Large frequency change with thickness in interlayer breathing mode — significant interlayer interactions in few layer black phosphorus", Nano Lett. 15, 3931-‐3938 (2015)

60. D.D. Men, H.H. Zhang, L.F. Hang, D.L. Liu, X.Y. Li, W.P. Cai, Q.H. Xiong and Y. Li*," Optical sensor based on hydrogel films with 2D colloidal arrays attached on both the surfaces: anti-‐curling performance and enhanced optical diffraction intensity ", J. Mater. Chem. C 3, 3659-‐3665 (2015)

61. X.F. Liu, Q. Zhang, W.K. Chong, J.N. Yip, X.L. Wen, Z.P. Li, F.X. Wei, G.N. Yu, Q.H. Xiong* and T.C. Sum*, "Cooperative Enhancement of Second-‐Harmonic Generation from a Single CdS Nanobelt-‐Hybrid Plasmonic Structure", ACS Nano. 9, 5018-‐5026 (2015)

62. X.Y. Xu, A.K.K. Kyaw, B. Peng, Q.H. Xiong, H.V. Demir, Y. Wang, T.K.S. Wong* and X.W. Sun*, "Influence of gold-‐silica nanoparticles on the performance of small-‐molecule bulk heterojunction solar cells", Organics Electronics 22, 20-‐28 (2015)

63. C.H. Zhang, S.L. Zhao, C.H. Jin, A.L. Koh, Y, Zhou, W.G. Xu, Q.C. Li, Q.H. Xiong, H.L. Peng* and Z.F. Liu*, "Direct growth of large-‐area graphene and boron nitride heterostructures by a co-‐segregation method", Nature Communications 6, 6519. DOI:10.1038/ncomms7519 (2015)

64. J.G. Tao, J.W. Chai, X. Lu, L.M. Wong, T.I. Wong, J.S. Pan, Q.H. Xiong, D.Z. Chia and S.J. Wang*, "Growth of wafer-‐scale MoS2 monolayer by magnetron sputtering", Nanoscale 7, 2497-‐2503 (2015)

65. X.F. Liu, S.T. Ha, Q. Zhang, M. de la Mata, C. Magen, J. Arbiol, T.C. Sum* and Q.H. Xiong*, "Whispering gallery mode lasing from hexagonal shaped layered lead iodide crystals", ACS Nano. 9, 687-‐95 (2015)

66. S.L. Dodson, C. Cao, H. Zaribafzadeh, S.Z. Li and Q.H. Xiong*, "Engineering plasmonic nanorod arrays for colon cancer marker detection", Biosens. Bioelectron. 63, 472-‐7 (2015)

67. Y.Y. Zhao, M. de la Mata, R. Qiu, J. Zhang, X.L. Wen, C. Magan, X. P.A. Gao, J. Arbiol* and Q.H. Xiong*, "Te-‐seeded growth of few-‐quintuple layer Bi2Te3 and Bi2Se3 nanoplates", Nano Research 7, 1243-‐1253 (2014)

68. Y.Y. Zhao, X. Luo, J. Zhang, J.X. Wu, X.X. Bai, M.X. Wang, J.F. Jia, H.L. Peng, Z.F. Liu, S.Y. Quek* and Q.H. Xiong*, “Interlayer vibrational modes in few-‐quintuple-‐layer Bi2Te3 and Bi2Se3 two-‐dimensional crystals: Raman spectroscopy and first-‐principles studies ”, Phys. Rev. B 90, 245428 (2014)

12

69. M.I.B. Utama, X. Lu, Y.W. Yuan and Q.H. Xiong*, “Detrimental influence of catalyst seeding on the device properties of CVD-‐grown 2D layered materials: A case study on MoSe2”, Appl. Phys. Lett. 105, 253102 (2014)

70. X.Y. Xu, Q.G. Du, B. Peng, Q.H. Xiong, L. Hong, H.V. Demir, Terence K.S. Wong*, Aung K.K. Kyaw* and X.W. Sun*, "Effect of shell thickness on small-‐molecule solar cells enhanced by dual plasmonic gold-‐silica nanorods", Appl. Phys. Lett. 105, 113306 (2014)

71. G.Y. Li* and Q.H. Xiong*, "Scattering by abrupt discontinuities on photonic nanowires: closed-‐form expressions for domain reduction", Opt. Express 22, 25137-‐25148 (2014)

72. Q. Zhang, G.Y. Li, X.F. Liu, F. Qian, Y. Li, T.C. Sum, C.M. Lieber* and Q.H. Xiong*, “A room temperature low-‐threshold ultraviolet plasmonic nanolaser”, Nature Communications 5, 4953. DOI: 10.1038/ncomms5953 (2014)

73. W.K. Chong, G.C. Xing, Y. Liu, E.L. Gui, Q. Zhang, Q.H. Xiong; N. Mathews, C.K. Gan* and T.C. Sum*, “Direct measurement of coherent phonon dynamics in solution-‐processed stibnite thin films”, Phys. Rev. B. 90, 035208 (2014)

74. S. Shukla, N.H. Loc, P.P. Boix, T.M. Koh, R.R. Prabhakar, H.K. Mulmudi, J. Zhang, S. Chen, C.F. Ng, C.H.A. Huan, N. Mathews, T. Sritharan and Q.H. Xiong*, "Iron Pyrite Thin Film Counter Electrodes for Dye-‐Sensitized Solar Cells: High Efficiency for Iodine and Cobalt Redox Electrolyte Cells", ACS Nano. 8, 10597–10605 (2014)

75. X.F. Liu, B. Wu, Q. Zhang, J.N. Yip, G.N. Yu, Q.H. Xiong, N. Mathews and T.C. Sum*, “Elucidating the localized plasmonic enhancement effects from a single Ag nanowire in organic solar cells”, ACS Nano. 8, 10101-‐10110 (2014)

76. Z. Li, S.A. Kulkarni, P.P. Boix, E.Z. Shi, A.Y. Cao, K.W. Fu, S.K. Batabyal, J. Zhang, Q.H. Xiong, L.H. Wong, N. Mathews and S.G. Mhaisalkar, “Laminated Carbon Nanotube Networks for Metal Electrode-‐Free Efficient Perovskite Solar Cells”, ACS Nano. 8, 6797-‐6804 (2014)

77. B. Guzelturk, P.L. Hernandez-‐Martinez, V.K. Sharma, Y. Coskun, V. Ibrahimova, D. Tuncel, A.O. Govorov, X.W. Sun, Q.H. Xiong, H.V. Demir*, “Study of exciton transfer in dense quantum dot nanocomposites”, Nanoscale 6, 11387-‐11394 (2014)

78. L.Y.M. Tobing, L. Tjahjana, D.H. Zhang, Q. Zhang and Q.H. Xiong, “Sub-‐100-‐nm sized silver split ring resonator metamaterials with fundamental magnetic resonance in the middle visible spectrum”, Adv. Optical Mater. 2, 280-‐285 (2014)

79. Y.B. Zhao, J. Zhang, S.W. Liu, Y. Gao, X.Y. Yang, K.S. Leck, A.P. Abiyasa, Y. Divayana, E. Mutlugun, S.T. Tan, Q.H. Xiong, H.V. Demir and X.W. Sun*, “Transition metal oxides on organic semiconductors”, Organic Electronics 15, 871-‐877 (2014)

80. M.I.B. Utama, X. Lu, D. Zhan, S.T. Ha, Y.W. Yuan, Z.X. Shen and Q.H. Xiong*, “Etching-‐free patterning method for electrical characterizations of atomically thin CVD-‐grown MoSe2 film”, Nanoscale. 6, 12376-‐12382 (2014)

81. Q. Zhang, S.T. Ha, X.F. Liu, T.C. Sum* and Q.H. Xiong*, “Room-‐temperature near-‐infrared high-‐Q perovskite whispering-‐gallery planar nanolasers”, Nano Lett. 14, 5995-‐6001 (2014)

82. S.T. Ha, X.F. Liu, Q. Zhang, D. Giovanni, T.C. Sum and Q.H. Xiong*, “Synthesis of organic-‐inorganic lead halide perovskite nanoplatelets: Towards high performance perovskite solar cells and opto-‐electronic devices”, Adv. Optical Mater. 2, 838-‐844 (2014) (highlighted as Best of Advanced Optical Materials – 2014 edition)

83. D.H. Li, J. Zhang, X.J. Wang, B.L. Huang and Q.H. Xiong*, “Solid-‐state semiconductor optical cryocooler based on CdS nanobelts”, Nano Lett. 14, 4724–4728 (2014)

84. B. Peng, Z.P. Li, E. Mutlugun, P.D. H. Martinez, D.H. Li, Q. Zhang, Y. Gao, H.V. Demir* and Q.H. Xiong*, “Quantum dots on vertically aligned gold nanorods monolayer: plasmon enhanced fluorescence”, Nanoscale, 6, 5592-‐5598 (2014)

13

85. C. Cao, J. Zhang, S.Z. Li and Q.H. Xiong*, “Intelligent and ultrasensitive analysis of mercury trace contaminants via plasmonic metamaterial-‐based surface-‐enhanced Raman spectroscopy”, Small 10, 3252-‐3256 (2014)

86. S.F. Chen, F. Cheng, Y. Mei, B. Peng, M. Kong, J.Y. Hao, R. Zhang, Q.H. Xiong*, L.H. Wang, and W. Huang*, “Plasmon-‐enhanced polymer photovoltaic cells based on large aspect ratio gold nanorods and the related working mechanism”, Appl. Phys. Lett. 104, 213903 (2014)

87. F. Nan, Z.Q. Cheng, Y.L. Wang, Q. Zhang, L. Zhou, Z.J. Yang, Y.T. Zhong, S. Liang, Q.H. Xiong* and Q.Q. Wang*, “Manipulating nonlinear emission and cooperative effect of CdSe/ZnS quantum dots by coupling to a silver nanorod complex cavity”, Scientific Reports 4, 4839, DOI: 10.1038/srep04839 (2014)

88. X. Lu, M. Iqbal Bakti Utama, J.H. Lin, X. Gong, J. Zhang, Y.Y. Zhao, S.T. Pantelides, J.X. Wang, Z.L. Dong, Z. Liu, W. Zhou, and Q.H. Xiong*, “Large-‐area synthesis of monolayer and fewlayer MoSe2 films on SiO2 substrates”, Nano Lett. 14, 2419-‐2425 (2014)

89. J. Zhang, C. Cao, X.L. Xu, C.H. Liow, S.Z. Li*, PingHeng Tan*, and Q.H. Xiong*, “Tailoring alphabetical Metamaterials in optical frequency: plasmonic coupling, dispersion, and sensing”, ACS Nano 8, 3796-‐3806 (2014)

90. X.Y. Xu, A.K.K. Kyaw, B. Peng, Q.G. Du, L. Hong, H.V. Demir, T.K.S. Wong*, Q.H. Xiong* and X.W. Sun*, “Enhanced efficiency of solution-‐processed small-‐molecule solar cells upon incorporation of gold nanospheres and nanorods into organic layers”, Chem. Commun. 50, 4451-‐4454 (2014)

91. X.L. Wen, Q, Zhang, J.W. Chai, L.M. Wong, S.J. Wang, and Q.H. Xiong*, “Near-‐infrared active metamaterials and their applications in tunable surface-‐enhanced Raman scattering”, Opt. Express 22, 2989-‐2995 (2014)

92. Z. Liu, Z.B. Yang, B. Peng, C. Cao, C. Zhang, H.J. You, Q.H. Xiong*, Z.Y. Li*, and J.X. Fang*, “Highly sensitive, uniform, and reproducible surface-‐enhanced Raman spectroscopy from hollow Au-‐Ag alloy nanourchins”, Adv. Mater. 26, 2431-‐2439 (2014)

93. S.F. Chen, B. Peng, F. Lu, Y. Mei, F. Cheng, L.L. Deng, Q.H. Xiong, L.H. Wang, X.W. Sun*, and W. Huang, “Scattering or Photoluminescence? Major Mechanism Exploration on Performance Enhancement in P3HT-‐Based Polymer Solar Cells with NaYF4:2% Er3+,18% Yb3+ Upconverting Nanocrystals”, Adv. Optical Mater. 2, 442-‐449 (2014)

94. X.L. Wen, G.Y. Li, J. Zhang, Q. Zhang, B. Peng, L.M. Wong, S.J. Wang*, and Q.H. Xiong*, “Transparent free-‐standing metamaterials and their applications in surface-‐enhanced Raman scattering”, Nanoscale 6, 132-‐139 (2014)

95. X. Luo, Y.Y. Zhao, J. Zhang, M.L. Toh, C. Kloc, Q.H. Xiong*, and S.Y. Quek*, “Effects of lower symmetry and dimensionality on Raman spectra in two-‐dimensional WSe2”, Phys. Rev. B 88, 195313 (2013)

96. Q. Zhang, X.L. Wen, G.Y. Li, Q.F. Ruan, J.F. Wang, and Q.H. Xiong*, “Multiple magnetic mode-‐based Fano resonance in split-‐ring resonator/disk nanocavities”, ACS Nano 7, 11071-‐11078 (2013)

97. H. Li, J. Wu, X. Huang, G. Lu, J. Yang, X. Lu, Q.H. Xiong, and H. Zhang*, “Rapid and reliable thickness identification of two-‐dimensional nanosheets using optical microscopy”, ACS Nano 7, 10344-‐10353 (2013)

98. X.F. Liu, Q. Zhang, J.N. Yip, Q.H. Xiong* and T.C. Sum*, “Wavelength Tunable Single Nanowire lasers based on surface plasmon polariton enhanced Burstein–Moss effect”, Nano Lett. 13, 5336-‐5343 (2013).

99. X. Luo, Y.Y. Zhao, J. Zhang, Q.H. Xiong*, and S.Y. Quek*, "Anomalous frequency trends in MoS2 thin films attributed to surface effects", Phys. Rev. B. 88, 075320 (2013)

100. C. Cao, J. Zhang, X.L. Wen, S.L. Dodson, N.T. Dao, L.M. Wong, S.J. Wang, S.Z. Li, A.T. Phan, and Q.H. Xiong*, “Metamaterials-‐based label-‐free nanosensor for conformation and affinity biosensing”, ACS Nano 7, 7583–7591 (2013)

14

101. L.Y.M. Tobing*, L. Tjahjana, D.H. Zhang*, Q. Zhang, and Q.H. Xiong, “Deep subwavelength fourfold rotationally symmetric split-‐ring-‐resonator metamaterials for highly sensitive and robust biosensing platform”, Scientific Reports 3, 2347, DOI: 10.1038/srep02437 (2013)

102. X. Lu, M.I.B. Utama, J. Zhang, Y.Y. Zhao, and Q.H. Xiong*, “Layer-‐by-‐layer thinning of MoS2 by thermal annealing”, Nanoscale 5, 8904-‐8908 (2013)

103. K.T. Nguyen, D.H. Li, P. Borah, X. Ma, Z.N. Liu, L.L. Zhu, G. Gruner, Q.H. Xiong and Y.L. Zhao*, “Photoinduced charge transfer within polyaniline-‐encapsulated quantum dots decorated on graphene”, ACS Appl. Mater. Interfaces 5, 8105-‐8110 (2013)

104. D.H. Li, J. Zhang, and Q.H. Xiong*, “Laser cooling of CdS nanobelts: Thickness matters”, Opt. Express 21, 19302-‐19310 (2013)

105. Y. Zhu, Y. Zhou, M. I. B. Utama, M. de la Mata, Y.Y. Zhao, Q. Zhang, B. Peng, C. Magen, J. Arbiol*, and Q.H. Xiong*, “Solution phase van der Waals epitaxy of ZnO wire arrays”, Nanoscale 5, 7242-‐7249 (2013) (inside front cover)

106. B. Peng, G.Y. Li, D.H. Li, S.S. Dodson, Q. Zhang, J. Zhang, Y.H. Lee, H.V. Demir, X.Y. Ling and Q.H. Xiong*, “Vertically aligned gold nanorod monolayer on arbitrary substrates: self-‐assembly and femtomolar detection of food contaminants”, ACS Nano 7, 5993-‐6000 (2013)

107. X.Y. Xu, A.K.K. Kyaw, B. Peng, D.W. Zhao, T.K.S. Wong*, Q.H. Xiong*, X.W. Sun*, and A.J. Heeger, “A plasmonically enhanced polymer solar cell with gold-‐silica core-‐shell nanorods”, Organic Electronics 14, 2360-‐2368 (2013)

108. T. Ozel, P.L. Hernandez-‐Martinez, E. Mutlugun, O. Akin, S. Nizamoglu, I.O. Ozel, Q. Zhang, Q.H. Xiong*, and H.V. Demir*, “Observation of selective plasmon-‐exciton coupling in nonradiative energy transfer: Donor-‐selective versus acceptor-‐selective plexcitons”, Nano Lett. 13, 3065-‐3072 (2013)

109. X.F. Liu, Q. Zhang, G.C. Xing, Q.H. Xiong, and T.C. Sum*, "Size-‐dependent Exciton Recombination Dynamics in Single CdS Nanowires beyond the Quantum Confinement Regime", J. Phys. Chem. C. 117, 10716-‐ 10722 (2013)

110. M.I.B. Utama, M. de la Mata, Q. Zhang, C. Magen, J. Arbiol*, and Q.H. Xiong*, “The growth of ultralong ZnTe micro/nanostructures: The influence of polarity and twin direction on the morphogenesis of nanobelts and nanosheets”, Cryst. Growth Des. 13, 2590–2596 (2013)

111. Y.Y. Zhao, X. Luo, H. Li, J. Zhang, P.T. Araujo, C.K. Gan, J. Wu, H. Zhang*, S.Y. Quek*, M.S. Dresselhaus, and Q.H. Xiong*, “Interlayer breathing and shear modes in few-‐trilayer MoS2 and WSe2”, Nano Lett. 13, 1007-‐1015 (2013)

112. M.I.B. Utama, M. de la Mata, C. Magen, J. Arbiol*, and Q.H. Xiong*, “Twinning-‐, polytypism-‐, and polarity-‐induced morphological modulation in nonplanar nanostructures with van der Waals epitaxy”, Adv. Funct. Mater. 23, 1636-‐1646 (2013)

113. X.F. Liu, Q. Zhang, Q.H. Xiong*, and T.C. Sum*, “Tailoring the lasing modes in semiconductor nanowire cavities using intrinsic self-‐absorption”, Nano Lett. 13, 1080-‐1085 (2013)

114. X.M. Zou, X.Q. Liu, C.L. Wang, Y. Jiang, Y. Wang, X.H. Xiao, J.C. Ho, J.C. Li, C.Z. Jiang, Q.H. Xiong, and L. Liao*, “Controllable Electrical Properties of Metal-‐Doped In2O3 Nanowires for High-‐Performance Enhancement-‐Mode Transistors”, ACS Nano 7, 804-‐810 (2013)

115. S. Dodson, M. Haggui, R. Bachelot, J. Plain*, S.Z. Li*, and Q.H. Xiong*, "Optimizing Electromagnetic Hotspots in Plasmonic Bowtie Nanoantennae", J. Phys. Chem. Lett. 4, 496-‐501 (2013)

116. Y.Q. Wen, F.Y. Li, X.C. Dong, J. Zhang, Q.H. Xiong*, and P. Chen*, “The Electrical Detection of Lead Ions Using Gold-‐Nanoparticle-‐ and DNAzyme-‐Functionalized Graphene Device”, Adv. Healthcare Mater. 2, 271-‐274 (2013)

117. J. Zhang, D.H. Li, R.J. Chen, and Q.H. Xiong*, "Laser cooling of a semiconductor by 40 kelvin: an optical refrigerator based on cadmium sulfide nanoribbons", Laser Refrigeration of Solids VI. 8638. DOI: 10.117/12.2002713 (2013)

15

118. J. Zhang, D.H. Li, R.J. Chen, and Q.H. Xiong*, “Laser cooling of a semiconductor by 40 Kelvin”, Nature 493, 504-‐508 (2013) (Nature Cover Highlight, highlighted by Nature Photonics in its April and May issues, news coverage by German Public Radio, German Science News, Physics world by IoP, Txchnologist, Arstechnia, The Statesman-‐The Oldest English Newspaper of India, Wiley Materials Views China, Phys Org, Channel Asia, The Strait Times, and so forth)

119. J.Z. Shang, C.X. Cong, J. Zhang, Q.H. Xiong, G.G. Gurzadyan*, and T. Yu*, “Observation of low-‐wavenumber out-‐of-‐plane optical phonon in few-‐layer graphene”, J. Raman Spectrosc. 44, 70-‐74 (2013)

120. J.C.W. Ho, S.K. Batabya, S.S. Pramana, J.Y. Lum, V.T. Pham, D.H. Li, Q.H. Xiong, A.I.Y. Tok, and L.H. Wong*, “Optical and electrical properties of wurtzite copper indium sulfide nanoflakes”, Mater. Express 2, 344-‐350 (2012)

121. X.L. Li, H.L. Hu, D.H. Li, Z.X. Shen, Q.H. Xiong, S.Z. Li, and H.J. Fan*, “Ordered array of gold semishells on TiO2 spheres: an ultrasensitive and recyclable SERS substrate”, ACS Appl. Mater. Interfaces 8, 2180-‐2185 (2012)

122. Q. Zhang, X.F. Liu, M.I.B. Utama, J. Zhang, M. de la Mata, J. Arbiol, Y.H. Lu, T.C. Sum, and Q.H. Xiong*, “Highly enhanced exciton recombination rate by strong electron-‐phonon coupling in single ZnTe nanobelt” , Nano Lett. 12, 6420-‐6427 (2012)

123. J. Pan, M.I.B. Utama, Q. Zhang, X.F. Liu, B. Peng, L.M. Wong, T.C. Sum, S.J. Wang and Q.H. Xiong*, “Composition-‐tunable vertically aligned CdSxSe1-‐x nanowire arrays via van der Waals epitaxy: investigation of optical properties and photocatalytic behavior”, Adv. Mater. 24, 4151-‐4156 (2012) (a special focus issue “Materials Research at Nanyang Technological University”)

124. Soni, Y.Q. Shen, M. Yin, Y.Y. Zhao, L.G. Yu, X. Hu, Z.L. Dong, K.A. Khor, M.S. Dresselhaus, and Q.H. Xiong*, “Interface driven energy filtering of thermoelectric power in spark plasma sintered Bi2Te2.7Se0.3 nanoplatelet composites”, Nano Lett. 12, 4305-‐4310 (2012)

125. L.F. Xi, K.H. Chua, Y.Y. Zhao, J. Zhang, Q.H. Xiong, and Y.M. Lam*, “Controlled synthesis of CdE (E = S, Se and Te) nanowires”, RSC Advances 2, 5243-‐5253 (2012)

126. Y.C. Lin, Y. Chen, R.J. Chen, K. Gosh, Q.H. Xiong, and Y. Huang*, “Crystallinity control of ferromagnetic contacts in stressed nanowire templates and the magnetic domain anisotropy”, Nano Lett. 12, 4341-‐4348 (2012)

127. Z.Q. Luo, C.X. Cong, J. Zhang, Q.H. Xiong, and T. Yu*, “Direct observation of inner and outer G' band double-‐resonance Raman scattering in free standing graphene”, Appl. Phys. Lett. 100, 243107 (2012)

128. Z.Q. Luo, C.X. Cong, J. Zhang, Q.H. Xiong, and T. Yu*, “The origin of sub-‐bands in the Raman D-‐band of graphene”, Carbon 50, 4252-‐4258 (2012)

129. M.J. Li, B. Wu, S.A. Ekahana, M.I.B. Utama, G.C. Xing, Q.H. Xiong, T.C. Sum*, and X.H. Zhang*, “Size and surface effects on transient photoconductivity in CdS nanobelts probed by time-‐resolved terahertz spectroscopy”, Appl. Phys. Lett. 101, 091104 (2012)

130. D.H. Li, J. Zhang, Q. Zhang, and Q.H. Xiong*, “Electric-‐field-‐dependent photoconductivity in CdS nanowires and nanobelts: exciton ionization, Franz Keldysh, and Stark effects”, Nano Lett. 12, 2993-‐2999 (2012)

131. D.H. Li, J. Zhang, and Q.H. Xiong*, “Surface depletion induced quantum confinement in CdS nanobelts”, ACS Nano 6, 5283-‐5290 (2012)

132. M. de la Mata, C. Magen, J. Gazquez, M.I.B. Utama, M. Heiss, S. Lopatin, F. Furtmayr, C. J. Fernández-‐Rojas, B. Peng, J.R. Morante, R. Rurali, M. Eickhoff, A.F. i Morral, Q.H. Xiong, and J. Arbiol*, “Polarity assignment in ZnTe, GaAs, ZnO, and GaN-‐AlN nanowires from direct dumbbell analysis”, Nano Lett. 12, 2579–2586 (2012)

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133. X.W. Wang, X.C. Dong, Y.Q. Wen, C.M. Li, Q.H. Xiong, and P. Chen*, “A graphene-‐cobalt oxide based needle electrode for non-‐enzymatic glucose detection in micro-‐droplets”, Chem. Commun. 48, 6490-‐6492 (2012)

134. Soni, Y.Y. Zhao, L.G. Yu, K.A. Khor*, M.S. Dresselhaus, and Q.H. Xiong*, “Enhanced thermoelectric properties of solution grown Bi2Te3-‐xSex nanoplatelet composites”, Nano Lett. 12, 1203-‐1209 (2012)

135. Peng, Q. Zhang, X.F. Liu, Y. Ji, H.V. Demir, C.H.A. Huan, T.C. Sum, and Q.H. Xiong*, “Fluorophore-‐doped core-‐multishell spherical plasmonic nanocavities: resonant energy transfer toward a loss compensation”, ACS Nano, 6, 6250-‐6259 (2012)

136. M.I.B. Utama, F.J. Belarre, C. Magen, B. Peng, J. Arbiol*, and Q.H. Xiong*, “Incommensurate van der Waals epitaxy of nanowire arrays: a case study with ZnO on muscovite mica substrates”, Nano Lett. 12, 2146-‐2152 (2012)

137. M.I.B. Utama, Q. Zhang, S.F. Jia, D.H. Li, J.B. Wang* and Q.H. Xiong*, “Epitaxial II–VI tripod nanocrystals: a generalization of van der Waals epitaxy for nonplanar polytypic nanoarchitectures”, ACS Nano 6, 2281-‐2288 (2012)

138. R.J. Chen, D.H. Li, H.L. Hu, Y.Y. Zhao, Y. Wang, L.M. Wong, S.J. Wang, Y. Zhang, J. Hu, Z.X. Shen and Q.H. Xiong*, “Tailoring optical properties of silicon nanowires by au nanostructure decorations: enhanced Raman scattering and photodetection”, J. Phys. Chem. C 116, 4416-‐4422 (2012)

139. H.J. Fan* and Q.H. Xiong*, “Recent advance in semiconductor nanowire research” (editorial of themed issue of ICMAT2011), Nanoscale 4, 1410-‐1411 (2012)

140. Q.H. Xiong*, C.A. Grimes, M. Zacharias, A.F. i Morral, K. Hiruma, and G.Z. Shen, “Semiconductor nanowires and nanotubes: from fundamentals to diverse applications” (Editorial of Special Issue on Semiconductor Nanowires and Nanotubes), J. of Nanotechnology, 2012, 423879 (2012)

141. Q. Zhang, J. Zhang, M.I.B. Utama, B. Peng, M. de la Mata, J. Arbiol, and Q.H. Xiong*, “Exciton-‐phonon coupling in individual ZnTe nanorods studied by resonant Raman spectroscopy”, Phys. Rev. B 85, 085418 (2012)

142. P. Xie, Q.H. Xiong, Y. Fang, Q. Qing, and C.M. Lieber*, “Local electrical potential detection of DNA by nanowire–nanopore sensors”, Nature Nanotechnology 7, 119-‐125 (2012) (highlighted as a cover story, and highlighted by MRS Bulletin and news highlight by Nature Nanotechnology)

143. Y.Y. Zhao, K.T. Chua, C.K. Gan, J. Zhang, B. Peng, Z.P. Peng, and Q.H. Xiong*, “Phonons in Bi2S3 nanostructures: Raman scattering and first-‐principles studies”, Phys. Rev. B 84, 205330 (2011)

144. J. Pan, X.F. Song, J. Zhang, H. Shen*, and Q.H. Xiong*, “Switchable wettability in SnO2 nanowires and SnO2@SnO2 heterostructures”, J. Phys. Chem. C 115, 22225-‐22231 (2011)

145. X.S. Shen, L.Y. Chen, D.H. Li, L.F. Zhu, H. Wang, C.C. Liu, Y. Wang, Q.H. Xiong, and H.Y. Chen*, “Assembly of colloidal nanoparticles directed by the microstructures of polycrystalline ice”, ACS Nano 5, 8426-‐8433, (2011)

146. B. Liu, R. Chen, X.L. Xu, D.H. Li, Y.Y. Zhao, Z.X. Shen, Q.H. Xiong, and H.D. Sun*, “Exciton-‐related photoluminescence and lasing in CdS nanobelts”, J. Phys. Chem. C 115, 12826-‐12830 (2011)

147. X.L. Xu, B. Peng, D.H. Li, J. Zhang, L.M. Wong, Q. Zhang, S.J. Wang, and Q.H. Xiong*, “Flexible visible-‐infrared metamaterials and their applications in highly sensitive chemical and biological sensing”, Nano Lett. 11, 3232-‐3238 (2011) (highlighted by Nature Asia Materials and Nanowerk.com)

148. M.I.B. Utama, Z.P. Peng, R. Chen, B. Peng, XL. Xu, Y.J. Dong, L.M. Wong, S.J. Wang, H.D. Sun*, and Q.H. Xiong*, “Vertically aligned cadmium chalcogenide nanowire arrays on muscovite mica: a demonstration of epitaxial growth strategy”, Nano Lett. 11, 3051-‐3057 (2011) (cover story, August 2011)

149. J. Zhang, Z.P. Peng, A. Soni, Y.Y. Zhao, Y. Xiong, B. Peng, J.B. Wang, M.S. Dresselhaus, and Q.H. Xiong*, “Raman spectroscopy of few-‐quintuple layer topological insulator Bi2Se3 nanoplatelets”, Nano Lett. 11, 2407-‐2414 (2011)

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150. X.L. Xu, Y.Y. Zhao, E.J. Sie, Y.H. Lu, B. Liu, S.A. Ekahana, X. Ju, Q.K. Jiang, J.B. Wang, H.D. Sun, T.C. Sum,* C.H.A. Huan, Y.P. Feng, and Q.H. Xiong*, “Dynamics of bound exciton complexes in CdS nanobelts”, ACS Nano 5, 3660-‐3669 (2011)

151. J. Gao, R. Chen, D.H. Li, L. Jiang, J.C. Ye, X.C. Ma, X.D. Chen, Q.H. Xiong, H.D. Sun, and T. Wu*, “UV light emitting transparent conducting tin-‐doped indium oxide (ITO) nanowires”, Nanotechnology 22, 195706 (2011)

152. R. Chen, M.I.B. Utama, Z.P. Peng, B. Peng, Q.H. Xiong* and H.D. Sun*, “Excitonic properties and near-‐infrared coherent random lasing in vertically aligned CdSe nanowires”, Adv. Mater. 23, 1404-‐1408 (2011)

153. Z.Q. Luo, J.Z. Shang, S.H. Lim, D.H. Li, Q.H. Xiong, Z.X. Shen, J.Y. Lin, and T. Yu*, “Modulating the electronic structures of graphene by controllable hydrogenation”, Appl. Phys. Lett. 97, 233111-‐233113 (2010)

154. R. Chen, D.H. Li, Bo Liu, Z.P. Peng, G.G. Gurzadyan, Q.H. Xiong* and H.D. Sun*, “Optical and excitonic properties of crystalline ZnS nanowires: toward efficient ultraviolet emission at room temperature”, Nano Lett. 10, 4956-‐4961 (2010)

155. Z.P. Peng, H.L Hu, M.I.B. Utama, L.M. Wong, K. Ghosh, R.J. Chen, S.J. Wang, Z.X. Shen and Q.H. Xiong*, “Heteroepitaxial decoration of Ag nanoparticles on Si nanowires: a case study on Raman scattering and mapping”, Nano Lett. 10, 3940-‐3947 (2010)

156. S.W. Nam, X.C. Jiang, Q.H. Xiong, D.H. Ham and C.M. Lieber*, "Vertically integrated, three-‐dimensional complementary metal-‐oxide-‐semiconductor circuits", Proc. Natl. Acad. Sci. USA 106, 21035-‐21038 (2009)

157. G. Chen, J. Wu, Q.J. Lu, H.R. Gutierrez, Q.H. Xiong, M.E. Pellen, J.S. Petko, D.H. Werner, P.C. Eklund*, "Optical antenna effect in semiconducting nanowires", Nano Lett. 8, 1341-‐1346 (2008)

158. X.C. Jiang, Q.H. Xiong, S.W. Nam, F. Qian, Y. Li and C.M. Lieber*, "InAs/InP Radial nanowire heterostructures as high electron mobility devices", Nano Lett. 7, 3214-‐3218 (2007)

159. Q.H. Xiong, R. Gupta, J. Wang, G.D. Mahan, L.C. Lew Yan Voon, and P.C. Eklund*, "Surface optical phonons in cylindrical and rectangular cross-‐sectional semiconducting nanowires", Solid State Phenomena 121-‐123, 955-‐966 (2007)

160. Q.H. Xiong, J. Wang and P.C. Eklund*, "Coherent twinning phenomena: towards twinning superlattices in III-‐V semiconducting nanowires", Nano Lett. 6, 2736-‐2742 (2006)

161. Q.H. Xiong, N. Duarte, S. Tadigadapa, and P.C. Eklund*, "Force-‐deflection spectroscopy: a new method to determine the Young’s modulus of nanofilaments", Nano Lett. 6, 1904-‐1909 (2006)

162. X.D. Li, X.N. Wang, Q.H. Xiong, and P.C. Eklund*, "Top-‐down structure and device fabrication using in-‐situ nanomachining", Appl. Phys. Lett. 87, 233113 (2005)

163. X.D. Li, X.N. Wang, Q.H. Xiong, and P.C. Eklund*, "Mechanical properties of ZnS nanobelts", Nano Lett. 5, 1982-‐1986 (2005)

164. Q.H. Xiong, J.G. Wang, O. Reese, L.C. Lew Yan Voon, and P.C. Eklund*, "Raman scattering from surface phonons in rectangular cross-‐sectional w-‐ZnS nanowires", Nano Lett. 4, 1991-‐1996 (2004)

165. Q.H. Xiong, G. Chen, J.D. Accord, X. Liu, J.J. Zengel, H.R. Gutierrez, J.M. Redwing, L.C. Lew Yan Voon, B. Lassen, and P.C. Eklund*, "Optical properties of rectangular cross-‐sectional ZnS nanowires", Nano Lett. 4, 1663-‐1668 (2004)

166. R. Gupta, Q.H. Xiong, G.D. Mahan, and P.C. Eklund*, "Surface optical phonons in gallium phosphide nanowires", Nano Lett. 3, 1745-‐1750 (2003)

167. R. Gupta, Q.H. Xiong, C.K. Adu, and P.C. Eklund*, "Laser-‐induced Fano resonance scattering in silicon nanowires", Nano Lett. 3, 627-‐631, (2003)

168. G.D. Mahan*, R. Gupta, Q.H. Xiong, C.K. Adu, and P.C. Eklund, "Optical phonons in polar semiconductor nanowires", Phys. Rev. B 68, 073402 (2003)

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169. P.C. Eklund*, B.K. Pradhan, U.J. Kim, Q.H. Xiong, J.E. Fischer, A.D. Friedman, B.C. Holloway, K. Jordan and M.W. Smith, "Large-‐scale production of single-‐walled carbon nanotubes using ultrafast pulses from a free electron laser", Nano Lett. 2, 561-‐566 (2002)

170. Q.H. Xiong, R. Gupta, K.W. Adu, E.C. Dickey, G.D. Lian, D. Tham, J.E. Fischer, and P.C. Eklund*, "Raman spectroscopy and structure of crystalline gallium phosphide nanowires", J. Nanosci. Nanotechnol. 3, 335-‐339 (2003)

171. R.N. Bhattacharya, S.L. Yan, Z.W. Xing, Y.Y. Xie, J.Z. Wu, M. Feldmann, J. Chen, Q.H. Xiong, Z.F. Ren, and R.D. Blaugher, "Superconducting thallium oxide and mercury oxide films", MRS Proceedings 659, II11.2.1-‐6 (2001)

172. Y. Zhang, Q.H. Xiong, S.T. Lou, Y.B. Huang, L. Tang, G.L. Li, B. Li, J. Hu, and M.Q. Li, "Two-‐dimensional manipulation of single molecular DNA", Micro-‐ and Nanometer Science & Technology 5, 406-‐408 (2000)

173. Y. Zhang, S.F. Chen, Z.Q. Ouyang, J. Hu, Q.H. Xiong, B. Li, Y.B. Huang, M.Q. Li* and C.Z. Jin, "Stretching and imaging studies of single DNA molecules", Chinese Science Bulletin 45, 1365-‐1368 (2000)

174. Y.Q. Zhao, W.H. Ming, J.H. Hu, S.K Fu*, M.Q. Li, S.F. Chen, and Q.H. Xiong, "Preparation of polymeric nanoparticles and observation on the structure of novel nanosized physical hydrogels by AFM and SEM methods", Chemical Journal of Chinese Universities 20, 984 – 986 (1999)

175. Z. Zhang, H. Guo, G. Zhong, Q.H. Xiong, F. Yu, and X. Fan*, "Formation of cubic C3N4 thin film by plasma enhanced chemical vapor deposition", Thin Solid Films 346, 96-‐99 (1999)

176. Z.H. Zhang, H.X. Guo, F.W. Yu, Q.H. Xiong, and X.J. Fan*, "Preparation of cubic C3N4 thin film by low pressure plasma enhanced chemical vapor deposition", Acta Physica Sinica 47, 1047-‐1051 (1998)

BOOK & BOOK CHAPTERS

1. “Semiconductor Nanowires: Materials, Synthesis, Characterization and Applications”, Edited by Jordi Arbiol and Qihua Xiong, A Volume in Woodhead Publishing Series in Electronic and Optical Materials, ISBN: 978-‐1-‐78242-‐253-‐2, Published in 2015.

2. “Semiconductor Nanowires: Materials, Synthesis, Characterization and Applications”, Chapter 2, “II–VI compound semiconductor nanowires: Optical properties and nanophotonics”, H. Yu, C. Xin, Q. Zhang, M.I.B. Utama, L. Tong, Q.H. Xiong, Woodhead Publishing Series, 2015.

3. “Optical and Excitonic Properties of Crystalline ZnS Nanowires”, R. Chen, D.H. Li, Q.H. Xiong and H.D. Sun, Book Series “Characterization Tools for Nanoscience & Nanotechnology”, 2nd volume “VU-‐VIS and Photoluminescence Spectroscopy for Nanomaterials Characterization”, edited by Challa Kumar, Springer-‐Verlag, ISBN 978-‐3-‐642-‐27593-‐7, 2013.

4. “One-‐Dimensional Semiconductor Nanowires: Synthesis and Raman Scattering”, J. Zhang, J. Wu and Q.H. Xiong, in the Book “One-‐Dimensional Nanostructures: Principles and Applications”, January, 2013, ISBN: 978-‐1-‐1180-‐7191-‐5, Wiley, Inc.

PLENARY, KEYNOTE AND INVITED TALKS

1. “Probing Light-‐Matter Interactions in Perovskite Crystals”, The 19th Chinese National Conference on Light Scattering, December 1st-‐5th, Guangzhou, 2017.

2. “PerovLight: Photonics and Nanophotonics of Perovskite Materials”, The 4th International Symposium for Frontiers of Nanostructured Functional Materials and Applications, November 24th-‐26th, Suzhou, 2017.

3. “Strong Light-‐Matter Coupling in All-‐Inorganic Perovskite Crystals: Room Temperature Exciton-‐Polariton Lasing”, Progress In Electromagnetics Research Symposium (PIERS), November 19th-‐22nd, Nanyang Technological University, Singapore, 2017

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4. “Probing Exciton and Exciton Polaritons in Semiconductor Nanomaterials”, The Third International Conference on Nanoenergy and Nanosystems (NENS), October 21st-‐23rd, Beijing, 2017.

5. “Probing Light-‐Matter Interactions in Perovskite Crystals”, The IEEE Nanotechnology Materials and Devices Conference (NMDC 2017), Singapore, October 2nd-‐4th, 2017.

6. “Probing Light-‐Matter Interactions in Polar Semiconductor Nanomaterials”, Department of Physics at Tsinghua University, September 21st, Beijing, China, 2017.

7. “High Performance Small Lasers based on All-‐inorganic Perovskite Crystals”, The 7th International Conference on Nanoscience and Nanotechnology, ChinaNano 2017, Beijing, China. August 29th-‐31st, 2017. (ACS Nano Lectureship Awards symposium).

8. “Fluorescence Blinking Phenomenon in 2D Transitional Metal Chalcogenide Heterostructures” Fundamental Optical Processes in Semiconductors (FOPS) 2017, Stevenson, Washington. August 27th-‐September 1st, 2017,

9. “Interlayer Coupling and Charge Transfer in 2D Semiconductors and Heterostructures”, International Conference on Advanced Functional Materials 2017 at University of California at Los Angeles, August 14th-‐17th, 2017 (Keynote Talk).

10. “PerovLight: Strong Light-‐Matter Interactions in Perovskite Crystals”, The 7th Young Scholars Symposium on Nano & New Energy Technology (NNET 2017), Xi’an Jiaotong University, August 11th-‐13th, 2017.

11. “Interlayer Coupling and Charge Transfer in 2D Semiconductors and Heterostructures” and “”, 12th CLEO-‐PR and 5th Photonics Global Conference, July 3””1st-‐August 4th, Singapore.

12. “Probing Exciton and Exciton Polaritons in Semiconductor Nanomaterials”, The 21st National Semiconductor Physics Conference, Nanjing University, July 20th-‐21st, 2017.

13. “Probing Exciton and Exciton Polaritons in Semiconductor Nanomaterials”, The 9th Joint Meeting of Chinese Physicists Worldwide: International Conference on Physics and Education “New Opportunities in Physics” (International Organization of Chinese Physicists and Astronomers, OCPA9), July 16th-‐20th, 2017 (Keynote Talk).

14. “Probing Light-‐Matter Interactions at Nanoscale”, The First China-‐Singapore Frontier Technology Innovation Conference and China-‐Singapore Youth Scholar Forum, Chongqing University, July 14th-‐17th, 2017.

15. “Interlayer Coupling and Charge Transfer in 2D Semiconductors and Heterostructures”, International Conference on Physics of 2D Crystals, Ha Long, Viet Nam, April 25th-‐28th, 2017.

16. “Probing Light-‐Matter Interactions in Perovskite Crystals”, Department of Physics, University of Sydney, January 20th, 2017.

17. “Probing Light-‐Matter Interactions at Nanoscale”, Department of Electronic Materials and Engineering, Australian National University, January 16th, 2017.

18. “Probing Light-‐Matter Interactions at Nanoscale”, South University of Science and Technology of China, Shenzhen, China, December 28th, 2016.

19. “Fluorescence and Resolved-‐sideband Raman Cooling of Semiconductors”, The 9th Asian and Oceanian Photochemistry Conference, December 4th-‐8th, 2016 (Keynote Talk).

20. “Fluorescence and Resolved-‐sideband Raman Cooling of Semiconductors”, Department of Materials Science and Technology, King Abdullah University of Science and Technology, November 11th-‐15th, 2016

21. “Nonlinear Optical Properties of 2D Organic-‐Inorganic Perovskite Crystals”, IFAM2016, September 24-‐26th, Nanjin, China, 2016.

22. “Fluorescence and Resolved-‐sideband Raman Cooling of Semiconductors”, The 12th China-‐Singapore Joint Symposium on Research Frontiers in Physics, September 22th-‐24th, USTC, Hefei, China, 2016.

23. “Fluorescence and Resolved-‐sideband Raman Cooling of Semiconductors”, Tsinghua-‐NTU Joint Workshop on Quantum Materials, September 19th-‐20th, Tsinghua University, China, 2016.

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24. “Excitonic Properties of Inorganic-‐Organic Hybrid Perovskites and Nanophotonic Devices”, EMC2016, The 16th European Microscopy Congress, Lyon, France, August 28th – September 2nd, 2016.

25. “Inorganic-‐Organic Perovskite Materials: New Playground for Nanophotonics and Optoelectronics”, The 30th Annual Meeting of Chinese Chemical Society, Sino-‐Singapore Bilateral Symposium, Dalian Institute of Technology, July 1st-‐3rd, 2016.

26. “Laser Cooling of Semiconductors”, Chair for Ultrafast Phenomena and Photonics, University of Konstanz, Germany, June 22nd, 2016.

27. “Laser Cooling of II-‐VI Semiconductor Nanostructures: Towards All Solid State Semiconductor Optical Cooler”, “Jaszowiec” 2016 -‐ 45th International School and Conference on the Physics of Semiconductors, Hotel Klimczok, Szczyrk, Poland, June 18-‐24th, 2016.

28. “Laser Cooling of Semiconductors: Towards All Solid State Semiconductor Optical Cooler”, ICOOPMA 2016 -‐ 7th International Conference on Optical, Optoelectronic and Photonic Materials and Applications, Polytechnique Montreal, June 12-‐17th, 2016.

29. “Laser Cooling of Semiconductors”, Keynote Talk at The Third Annual UNAM NanoTay, Bilkent University, Turkey, May 26th, 2016.

30. “Laser Cooling of semiconductors”, School of Microelectronics and Solid-‐State Electronics, University of Electronic Science and Technology of China, Chengdu, May 11th, 2016.

31. “Inorganic-‐Organic Perovskite Materials: New Playground for Nanophotonics and Optoelectronics”, IEEE INEC 2016, Chengdu, May 10th, 2016.

32. “Inorganic-‐Organic Perovskite Materials: New Playground for Nanophotonics and Optoelectronics”, Shenzhen University, May 6th, 2016.

33. “Laser Cooling of semiconductors”, Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, Shenzhen, May 6th, 2016.

34. “Charge-‐Induced Second-‐Harmonic Generation in Bilayer Transitional Metal Dichalcogenides – A case study of WSe2”, MRS Spring Conference, Phoenix, March 28th-‐April 1st, 2016.

35. “Excitonic Properties of Inorganic-‐Organic Hybrid Perovskites and Nanophotonic Devices”, MRS Spring Conference, Phoenix, March 28th -‐ April 1st, 2016.

36. “Recent progress of laser cooling in semiconductors”, SPIE Photonics West Conference, San Francisco, February 13th-‐18th, 2016.

37. “Novel 2D Materials and Devices-‐Young Scientists Forum”, National Center for Nanosciences and Nanotechnology, Beijing, China. December 22nd-‐23rd, 2015.

38. “Laser Cooling of Semiconductors: II-‐VI Nanoribbons and Organic-‐Inorganic Perovskite Crystals”, Fudan University, December 4th, 2015.

39. “Laser Cooling of Semiconductors: II-‐VI Nanoribbons and Organic-‐Inorganic Perovskite Crystals”, Soochow University, December 10th, Suzhou Institute of Nano-‐Tech and Nano-‐Bionics (SINANO), Chinese Academy of Sciences, Suzhou, China. December 10th, 2015.

40. “Laser Cooling of Semiconductors”, Department of Physics, Korea University, November 4th, 2015. 41. “Inorganic-‐Organic Perovskite Crystals: Optical Properties and Nanolasers”, Department of

Materials Science and Engineering, Hanyang University, November 3rd, 2015. 42. “Inorganic-‐Organic Perovskite Nanolasers”, 1st International Symposium on Emerging Functional

Materials, Seoul, Korea, November 4th -‐ 6th, 2015. 43. “Laser Cooling of Semiconductors”, 18th National Conference on Light Scattering, China, Chengdu,

October 23rd -‐ 25th, 2015 (Plenary Lecture). 44. “Interlayer Vibrational Modes in 2D Transitional Metal Dichalcogenides”, 11th Australasian

Conference on Vibrational Spectroscopy, Australia, Sydney, September 28th -‐ October 3rd, 2015. 45. “Laser Cooling of CdS II-‐VI Semiconductor Nanoribbons: Towards All Solid State Semiconductor

Optical Cooler”, The 17th International Conference on II-‐VI Compounds and Related Materials, Paris, September 12th -‐ 20th, 2015 (Plenary Lecture).

46. “Charge-‐Induced Second-‐Harmonic Generation in Bilayer WSe2”, International Symposium on Physics and Device Application of Two Dimensional Materials, Nanjing University, July 12th – 15th, 2015.

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47. “Laser Cooling in Semiconductors”, The International Conference on Materials for Advanced Technologies (ICMAT), Suntec City Singapore, June 28th -‐ July 3rd, 2015.

48. “Charge-‐Induced Second-‐Harmonic Generation in Bilayer WSe2”,” 10th Sino-‐US Symposium on Nanoscale Science and Technology, Wuhan University of Technology, June 25th – 28th, 2015.

49. “Semiconductor Nanowires and Devices for Advanced Applications”, Materials Research Society (MRS) Spring 2015 Symposium, San Francisco, California, April 6th – 10th, 2015.

50. “Surface Plasmonic Lasers Based on Semiconductor Nanostructures”, The Opening Ceremony of the International Center for Quantum Photonics, International Symposium on Quantum Photonics and Plasmoncis, Wuhan University, March 16-‐17th, 2015.

51. “Laser Cooling of Semiconductors: Materials Challenges and Devices towards Next Generation Optical Refrigeration”, Gordon Research Conference-‐2015 Program: Nanomaterials for Applications in Energy Technology. February 22nd-‐28th, Ventura, 2015.

52. “Tailoring Artificial Plasmonic Nanostructures to Visible-‐Near IR Regime: Towards Versatile and Ultrasensitive Plasmonic Biosensors”, Institute of Solid State Physics, Chinese Academy of Sciences, December 17th-‐19th, 2014.

53. “From Nanomaterials to Bulk Crystals: Expanding the Laser Cooling Toolbox for Optical Refrigeration”, Invited Talk for “Nano Seminar Series”, The Hong Kong University of Science and Technology, November 24th-‐26th, 2014.

54. “Tuning Plasmonic Metamaterials towards Ultrasensitive Chemical and Biological Sensing”, Progress In Electromagnetics Research Symposium (PIERS) 2014, Guangzhou, China, August 25-‐28th, 2014.

55. “Room-‐Temperature Near-‐Infrared High-‐Q Perovskite Whispering-‐Gallery Planar Nanolasers”, Progress In Electromagnetics Research Symposium (PIERS) 2014, Guangzhou, China, August 25-‐28th, 2014.

56. “Laser Cooling of Semiconductors: Progress and Materials Challenges”, XXIV International Conference on Raman Spectroscopy (ICORS), Jena, Germany, August 10-‐15th, 2014.

57. “Organic-‐Inorganic Perovskite Crystals: Expanding the Laser Cooling Toolbox for Optical Refrigeration”, 9th Sino-‐USA Nano Forum, July 16-‐18th, Nankai University, 2014.

58. "From Nanomaterials to Bulk Crystals: Expanding the Laser Cooling Toolbox for Optical Refrigeration", International Symposium on Optoelectronics, Materials, and Energy (iSOME-‐2014), held in Nanjing Tech University, May 25-‐28th, 2014.

59. "From Nanomaterials to Bulk Crystals: Expanding the Laser Cooling Toolbox for Optical Refrigeration", Xi’an Jiao Tong University, May 23rd, 2014.

60. "From Nanomaterials to Bulk Crystals: Expanding the Laser Cooling Toolbox for Optical Refrigeration", Northwest University, May 22nd, 2014.

61. "Can We Laser Cool a Semiconductor Single Crystal?", SPIE Photonics West, San Francisco, February, 2014.

62. "Laser Cooling of Semiconductors: Progress and Materials Challenges", 4th Molecular Materials Meeting (M3), Singapore 2014 (Keynote Talk).

63. "Laser Cooling of Semiconductors", State Key Laboratory of Precision Spectroscopy, East China Normal University, January 10th, 2014.

64. "Photonic and Plasmonic Laser Based on Semiconductor Nanowires", International Workshop on Information Nanodevices, Wuhan University, January 8th, 2014.

65. "Laser Cooling of Semiconductors: Progress and Materials Challenges", Sino-‐Singapore Bilateral Symposium on Nanomaterials and Environmental Chemistry, Hefei, January 4th-‐6th, 2014.

66. "Can We Laser Cool a Semiconductor Single Crystal?", 4th Asian Spectroscopy Conference, Singapore, 2013.

67. "2D Layered Materials: New Playground of Optical Properties", “2D Materials: Beyond Graphene” International Workshop, NUS Graphene Center, 2013.

68. "Laser Cooling of Semiconductors", NANO-‐SciTech Centre (NST), Institute of Science (IOS) Universiti Teknologi MARA (UiTM), Malaysia, November 27th, 2013.

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69. "Laser Cooling of 2D Semiconductor Nanoribbons and Crystals", Center of Nanochemistry, Peking University, September 27th, 2013.

70. "Semiconductor Nanomaterials for Laser Cooling and Nanolasers", National Center for Nanoscience and Technology, September 27th, 2013.

71. "Interface Crystallization and Thermoelectric Performance of n-‐Type Bi2(Te/Se)3 Nanoplatelet Composites" IUMRS-‐ICAM 2013, Qingdao, September 23th, 2013.

72. "Laser Cooling of Semiconductor Nanoribbons", IUMRS-‐ICAM 2013, Qingdao, September 23th, 2013.

73. "Laser Cooling of Semiconductors", Southwest University, Chongqing, China, August 27th, 2013. 74. "Laser Cooling of Semiconductors", Institut de Ciencia de Materials de Barcelona, ICMAB-‐CSIC,

Bellaterra, Spain, June 13th, 2013. 75. "The Growth of Non-‐planar Epitaxial Nanostructures by van der Waals Epitaxy", 7th Nanowire

Growth Workshop, EPFL, Lausanne, June 10-‐12th 2013. 76. "Laser Cooling of Semiconductors”, International Workshop on "Photonics of Functional

Nanomaterials", City University of Hong Kong, May 6-‐10th, 2013. 77. "Laser Cooling of Semiconductors", The Hong Kong Polytechnic University, May 9th, 2013. 78. "Laser Cooling of Semiconductors", The Hong Kong University of Science and Technology, May 10th,

2013. 79. "Laser Cooling of Semiconductors", The Chinese University of Hong Kong, May 10th, 2013. 80. "Laser Cooling of Semiconductors”, State Key Laboratory of Modern Optical Instrumentation,

Zhejiang University, March 28-‐29th, 2013. 81. "Laser Cooling of a Semiconductor by 40 Kelvin", San Francisco, February 6-‐7th, SPIE Photonics

West 2013. 82. "Laser Cooling of Semiconductors", California Nanosystems Institute, University of California at

Los Angeles, February 5th, 2013. 83. “Laser Cooling of a Semiconductor by 40 K”, IEEE International Nanoelectronics Conference

(INEC), January 2nd-‐4th, Singapore, 2013. 84. "Engineering of Vis-‐NIR Metamaterials towards Revolutionary Ultrasensitive and Versatile

Plasmonic Biosensors", Photonics Global Conference, December 13th-‐16th, Singapore, 2012. 85. "Synthesis of Epitaxial Nanostructures on Layered Materials via van der Waals Epitaxy", MRS Fall

Meeting, Boston, November 25th-‐30th, 2012. 86. "2D Chalcogenides Nanocrystals: Tuning the Grain Boundaries Towards High Performance

Thermoelectric Bulk Nanocomposites", 2nd Young Scholars Forum on Nano & New Energy Technology, Wuhan, July 25th -‐29th 2012, China.

87. "Laser Cooling of a Semiconductor by 40 Kelvin", University of Technologies at Troyes, France, July 5th, 2012.

88. "Raman Spectroscopy of Few Quintuple Layer Topological Insulator Bi2Se3 and Bi2Te3 Nanoplatelets", International Workshop on Novel Phenomena in Narrow Bandgap Semiconductors, Beijing, May 1st-‐4th, China, 2012.

89. "General Synthesis of Compound Semiconductor Nanowire Arrays by van der Waals Epitaxy", IUMRS-‐ICA Conference, Taipei, September 21st, 2011.

90. "Dynamics of bound exciton complex and photoconductivity in CdS nanobelts", ChinaNano 2011 (sub-‐conference 5: Nanodevices and nanosystems), September 7th, 2011.

91. "Semiconducting and Metallic Nanomaterials and Nanostructures: From Optical Properties to Biosensing", Suzhou Institute of Nano-‐Tech and Nano-‐Bionics (SINANO), Chinese Academy of Sciences, July 6th, 2011.

92. "Van der Waals Epitaxy: A General Approach to Grow Ordered SNW Arrays", China Materials Research (C-‐MRS) Society Conference 2011, China-‐Singapore Young Materials Scientists Forum, June 20th, 2011.

93. "Metaflex: Flexible Photonic Devices for Sensing", Institute of High Performance Computing, A-‐STAR, Singapore, June 1st, 2011.

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94. "Nanopore Biosensing and Sequencing: Towards Personalized Medicine", Singapore IPS meeting 2011, February 25th, 2011 (Plenary Lecture).

95. "Heteroepitaxial Decoration of Metallic Nanoparticles on Si Nanowires: Synthesis and Optical Properties", Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology, Wuhan, September 16th, 2010.

96. "Heteroepitaxial Decoration of Metallic Nanoparticles on Si Nanowires: Synthesis and Optical Properties", 2010 International Conference on Optical, Electronic and Electrical Materials (ICOEM 2010), Kunming, China August 1st-‐4th, 2010.

97. "Semiconductor Nanowires Heterostructures for High Performance Nanoelectronic Devices", Shanghai Jiao Tong University, Shanghai, January 14th, 2010.

98. "Semiconductor Nanowires: From Optical Properties to High Performance Nanoelectronic Devices", Institute of Semiconductors, Chinese Academy of Sciences, Beijing, China, January 11th, 2010.

PATENTS

1. Q.H. Xiong, B. Peng, “Monolayer of Nanorods on A Substrate and Method of Forming The Same”. US Patent Application No: 14/773, filing date: September 4th 2015; China Paten Application Number: 201480017158.8, patent granted on October 13th, 2017. Patent No. ZL 2014 8 0017158.8.

2. Q.H. Xiong, S.T. Ha, C. Shen and J. Zhang, “Laser Cooling of Lead Halide Perovskites” US Provisional Patent (Application Number is TD/165/14), June 24th, 2014.

3. Q.H. Xiong, C. Cao and J. Zhang, “Tailoring Plasmonic Metamaterials for High Fidelity Molecular Logic and Ultrasensitive Sensing”, US Provisional Patent (Application Number is 61/833,130), 10th June 2013.

4. Q.H. Xiong and B. Peng, “Vertical-‐Aligned Monolayer of Au Nanorods On Arbitrary Substrates: Femtomolar Detection Of Phthalate Plasticizers”, PAT/046/13/13/US PRV, 5 April, 2013 (Application number 61/773,617).

5. Q.H. Xiong, J. Zhang and D.H. Li, “Laser Cooling Of Solids Using II-‐VI Semiconductors -‐ Future All-‐Solid-‐State Cryocooler”, Technology disclosure filed at Nanyang Technological University (Application number: 61/656,185) on 6 June 2012; US Patent Application No: 13/911,825, Filing Date: 06 June 2013; US patent granted on June 13th, 2017 (Patent No.: US 9,680,278 B2, pending).

6. Q.H. Xiong, X.L. Xu and J. Zhang, “Flexible Vis-‐IR Metamaterials and Their Applications in Highly Sensitive Chemical and Biological Sensing”, Technology disclosure filed at Nanyang Technological University (Application number: 61/494,099), International filing date 6 June 2012; United States of America Application No.: 14/124,496, Filing Date: 6 December 2013. PAT/069/11/13/PCT-‐SG, pending. Chinese Patent granted on March 22nd, 2017 (Patent No.: ZL 2012 8 0028198.3). US Patent granted on June 20th 2017 (US 9,683, 991 B2, pending).

7. C.M. Lieber, Q.H. Xiong, P. Xie and Y. Fang, “High-‐Resolution Molecular Sensor,” US Serial Number 12/677,573, granted on 15 April 2014 (Patent Number: US 8,698,481 B2) and European application Number 08830263.3 (Pending), licensed to Oxford Nanopore Technology, UK.

8. US Provisional Patent: "Automatic Twinning Superlattice Growth in Semiconducting Nanowires", Q.H. Xiong and Peter C. Eklund, Invention Disclosure Number 2006-‐3156.

9. Chinese Patent: "A Piece of Equipment for DNA Chip Detecting", Chinese Patent Office, Qihua Xiong, Minqian Li, Bin Li, ZL 99 2 40088.0, application date: 10/29/99, issue date: 03/29/01.

CV Xiong January 2018 - spms.ntu.edu.sgqihuagroup/data/Xiong/CV_Xiong January 201… · • Young’Researcher’Award,’SPMS,NanyangTechnologicalUniversity,2012 ...

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