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Inormation Receive news about the latest research at COPE and in the feld organic photonics & electronic
Resources Gain access to faculty, researchers, students, and intellectual capital tools
Visibility Develop a presence with the Georgia Tech community and COPE’s network
Marcus Nanotechnology Building Opens
The Marcus Nanotechnology Building is a new addition locate
next to the Molecular Sciences Quad at the intersection
Ferst Dr and State St. Georgia Tech broke ground on the ne
Marcus Nanotechnology Building, one o the most expensiv
buildings on campus, in August 2006. The $90 million acili
was made possible in part by a grant rom Mr. Bernie Marcu
ounder and chairman o the Marcus Foundation, who made
$15 million commitment to the project. “There isn’t anything th
nanotechnology will not touch or inuence in the uture,” Marc
said. “It will enhance medicine, high-technology and consum
products. I hope that nanotechnology will do or Georgia TecAtlanta, and the region what the ‘chip’ did or Silicon Valley.”
The “N” building is 190,000-square-oot building and one o
main scientic appeals is the addition o the 30,000 square eet
clean-room space. It is an important new resource or our Cent
since it will add new acilities used or material characterizatio
but also device abrication and testing or a variety o application
on which COPE members are working.
The dedication ceremony took place on April 24th, and include
speeches rom Mr. Marcus, Dr. Peterson, Dr. Meindl and Erroll
Davis, Jr., chancellor o the University System o Georgia.
GT MRSEC AwardedNSF has awarded unding to Georgia Tech to establish the GT
Materials Science and Engineering Center (MRSEC). GT will
receive $8.1 M over six years or research, education and outreach
activities. The MRSEC oce suite (under construction) will be
located in the Marcus Nanotechnology Building. The initial ocus
o the Center is research and development on epitaxial graphene
(EG), a material with extraordinary electronic properties that
oers the possibility o greatly enhanced speed and perormancerelative to silicon; this material may serve as the successor to silicon
in integrated circuits and microelectronic devices. In this context,
the research will include the development o new transparent
electrodes or organic electronics based upon graphene as well
as nano-patterning o graphene or electronic applications which
is applicable to the research done by COPE aculty members.
GT Physics Proessors Walt de Heer, Ed Conrad and Phil First are
world-wide leaders in the growth and characterization o EG.
Silicon has been the material o choice or electronic devices
since the 1960s. However, within the next 10 years, undamental
property limitations o silicon will inhibit the ability to abricate
operational devices and circuits due to continuing device size
reduction. The ability to reduce device size and thus pack more
and more devices on a chip has allowed adherence to Moore’s
Law and thereore has acilitated the phenomenal progression o
the silicon-based semiconductor industry.
Graphene, a two-dimensional honeycomb arrangement o carbon
(sp2) atoms analogous to the layered structure o graphite, can
be generated in several ways. The GT MRSEC ocuses on the
growth o EG (single and multiple layers) on single crystal silicon
carbide substrates. This approach oers the advantage that high
quality layers can be grown on large area substrates. In addition,
processes similar to those employed or silicon-based device
manuacture can be used or the abrication o graphene devices
and circuits. In contrast, much o the world-wide eort hasconcentrated on exoliated graphene, where graphene akes are
obtained by peeling layers rom graphite. Although devices can
be constructed on such sheets, the ability to abricate large area
arrays o high quality devices and hence establish consistency
with the well-established silicon-based technology is severely
restricted.
The GT MRSEC will develop the undamental science andtechnology to maximize graphene’s potential or utureelectronics technology, will establish core curricula in EG, andwill educate and train a diverse workorce or uture academic and
industrial leadership in microelectronics. The MRSEC EG eort is
cross-disciplinary within GT and within our other U.S. universitie
University o Caliornia Berkeley, University o Caliornia Riversid
Alabama A&M, and University o Michigan. Proessor Dennis He
(ChBE) serves as the GT MRSEC Director, and Proessor Walt d
Heer (Physics) heads the EG Interdisciplinary Research Group.
More inormation can be ound at: http://www.mrsec.gatech.e
Tell us more about your research and recent publications.
My work deals primarily with characterization and implementation o materials
with large, ultraast nonlinearities or photonic applications (Hales, J. M., Perry, J.
W., Introduction to Organic Electronic and Optoelectronic Materials and Devices,
CRC, Orlando, 2008 , pp. 521 – 579). These materials are typically organic in nature
and have the potential to be used or all-optical switching (Hales, J. M. et al, J. Am.
Chem. Soc. 128, 11362, 2006), optical phase conjugation (Chi, S. et al, Adv. Mater.
20, 3199, 2008), and optical power limiting (Hales, J. M. et al, submitted, 2009).
What are your uture career plans? I’ve really enjoyed my research work so ar during my career and I look orward to
teaching at some point, so a career in academia seems likely right now.
When you are not in the lab, what are some o your interests?
I met my wie Katherine while we were in graduate school and she would probably
readily admit that I have an unhealthy obsession with sports. I enjoy playing
tennis, although I’d be happier i my skill level matched my passion. Katherine
and I try to travel whenever we can and have been snow skiing, white water
kayaking, snorkeling, and hiking. I’ve tried to sky dive three times and twice the
weather has stopped me and once the plane was condemned right beore I got
on it - so it may be time to give up on that dream.
Joel HalesSenior Research Scientist
Proessor Joe Perry’s group
Tell us about your academic career and how you worked your way
to Senior Research Scientist.
For my undergraduate career I was actually here at Georgia Tech but over in
the physics department. I began doing research in the eld o optics during
an undergraduate research ellowship with work in nonlinear dynamics in
semiconductor lasers. I really enjoyed my time there and the research helped me
decide on going to CREOL, now the School o Optics, at the University o Central
Florida in Orlando, Florida to get my PhD in optical sciences and engineering.
I took a postdoctoral ellowship in Dr. Joseph Perry's lab a ew years ago and
became actively involved in a number o dierent programs, such as COPE,
that all involved using organics or all-optical photonic applications. The work
has been exciting, productive and rewarding and so I’ve stayed on as a senior
research scientist.
Research Proile
4
New Frontiers or Australian Sola
Research and Development
The environment in Australia or solar eneresearch, development and large scainrastructure has changed dramatically in tlast two years. The Australian Solar Institute (ASwith AUD $100 million startup unding, has beset up to invest in research and developmentphotovoltaic and solar thermal technologies.
The Australian State o Victoria is also activsupporting an expanding solar program with AU$50 million support or a $420 million large-scasolar concentrator power station in Mildura. TVictorian government recently announced additional AUD $100 million support or a largscale solar production plant in the state.
Within this context the Victorian Organic Solar CConsortium (VICOSC) is ideally placed to develand exploit new technologies developed withVictoria. VICOSC (www.vicosc.unimelb.edu.awas set up in 2008 with AUD $6 million supporom the Victorian government, total budget AU
$12 million, to develop large area, cheap, reel-reel prototype printable plastic solar cells wthree years.
The consortium brings together Victoria basworld-class research groups at the Universo Melbourne, Monash University, tCommonwealth Scientic and Industrial ResearOrganisation, Molecular and Health Technolog(CSIRO MHT) and has combined with industrpartners to transer the technology rom Researto Rootop (implementation expected in 10-years). The aim is to realize a prototype thin organic solar cell having 7% energy conversi
eciency using standard sunlight, and to expaVictoria’s technological strengths in sustainabenergy research to reduce greenhouse gemission in Australia.
The Victorian consortium is linked into the broAustralian and International OPV community van Australian Government International ScienLinkage grant (DIISR ISL, AUD $1.2 milliowhich includes as key members Proessor JeaLuc Bredas, Proessor Bernard Kippeleand Proessor Seth Marder o the Georg
Institute o Technology. The DIISR ISL graallows Australian researches to interact with a
undertake exchange visits with the internationPartners.
COPE osters increase in STEM Diversity through Broader Participation InitiativesCOPE was a key partner in two important initiatives that are expected to ultimately translate into enhanced diversity
within the STEM (Science, Technology, Engineering and Math) workorce.
FOCUS on Faculty Program
For the ourth consecutive year, COPE provided resources an
leveraged unding to aid in the recruitment o undergraduaunderrepresented STEM students or the 4th Annual FOCU
on Faculty Program held at Georgia Tech January 15 -18, 200COPE aculty members Jean-Luc Brédas, Samuel Graham
Bernard Kippelen, Seth Marder, and Joseph Perry participatein the three day diversity recruitment program. They providecareer presentations and hosted lab tours or 30 high-achievin
STEM students. In addition, they met with visiting aculty roMinority Serving Institutions (MSIs) that accompanied the
students. The goal o the FOCUS program is to encouragstudents to continue on to pursue their graduate degree. The
attend workshops on applying to graduate school, securinunding, and the benets o a graduate STEM degree.
4th ANNUAL HANDS-ON FUTURE TECH (HOFT)
CONFERENCE
COPE was a key stakeholder in providing unding,coordinating program logistics and securing outside unding
or the Southwest Hands-On Future Tech (HOFT) conerenceheld November 8-9, 2008 in Albuquerque, NM. Over 75ethnically diverse STEM undergraduate students rom around
the country attended the event. Partnering organizationsincluded the GEM Fellowship Program, our NSF STCs (CMDITR,
WaterCAMPWS, CMMAP, SAHRA), an NSF ERC (CIAN), twoDOE national laboratories and corporate sponsors. The GEMprogram also presented workshops to motivate and inorm
students o the benets o a graduate degree. The main goalo HOFT is to present hands-on activities highlighting the
research perormed at COPE, the NSF centers and the otherpartnering sponsors. In addition, sponsoring organizations
share inormation, insight and excitement about leading-
edge science and technology with underrepresentedundergraduates in STEM disciplines. There were a total o 8
hands-on “un” science and engineering demonstration roomsthat students visited during the conerence. The conerence
also provided a mechanism to improve recruitment o underrepresented students into COPE, STCs, governmental
and industrial laboratories. Strategic discussions among COPEand other partnering organizations took place regardingdeveloping partnership initiatives to increase minority student
participation. Student ollow-up is planned to chart students’career progress.
As a result o COPE’s participation in the FOCUS on Facul
program, we have been able to successully recruunderrepresented students and aculty into our partnerin
summer research programs and aculty research teams. good example o the benets o this initiative is COPE Direct
Seth Marder. Two MSI aculty, Dr. Konstantinos Kavallierato(Associate Proessor at Florida International University) an
Dr. Brian Lawrence (Assistant Proessor at Morehouse Collegeare engaged in COPE-related research working in Dr. Mardelab this summer. In addition, Marder and Lawrence will have
Morehouse College student, Akil Foluke, working with them
The FOCUS on Faculty program continues to be an excellevehicle to strengthen COPE’s relationship with MSI acul
and students. In addition, it is anticipated that through thdevelopment o these relationships, research collaborationwill be strengthened.
quantum yield o the chromophore through various environments.
Anthony applied or the COPE Fellowship in order to explore the eld
o organic photonics and develop collaborations and support that can
expand the sensory applications o his research. Anthony believes the
opportunities provided by COPE through seminars, events, networking,
and travel unds will greatly enhance his research work and experience
at Georgia Tech.
Upon graduation, Anthony plans to continue his research experience
with a post-doctoral position with the ultimate goals o entering
academia.
Shu-Hao Fan is a doctoral candidate in Proessor
G.K. Chang’s group. He received his Bachelor o
Science at National Taiwan University, Taiwan
in 2004. Ater 2 years serving in the army, he
decided to come to GT to pursue a Ph. D. degree
in optics and optoelectronics. His expected date
o graduation is May 2011.
Shu-Hao applied or the COPE ellowship to help
achieve better interaction with chemistry experts and to extend his
knowledge o chemistry because o the limited chances to expand on
such a subject in the electrical and computer engineering department.
His research areas include polymer optoelectronic devices, polymeric
optical interconnect, and radio-over-ber technology.
He plans to continue his research on optical/wireless interconnects.
During his ree time, Shu-Hao enjoys painting, reading, basketball,
tennis and traveling.
Debin Wang is a graduate student in Pro. ElisaRiedo’s group. His research involves developing
a novel surace patterning technique with
nanometer resolution. This technique may nd
interesting applications in device abrication
or nano-uidics, biochemistry and organic
electronics and photonics.
Debin applied or the COPE Fellowship with thepurpose o becoming more involved with interdisciplinary research
in organic electronics and photonics. He believes the Fellowship will
provide opportunities to help achieve this aim.
Debin is graduating with a PhD in Spring 2010 and is interested in nding
a postdoc position to continue his research on material suraces.
Kathy Beckner Woody is a doctoral candidatein Proessor David Collard’s research group. She
completed her undergraduate degree at the
University o Kentucky, where the research she
perormed under the guidance o Proessor Mark
Watson inspired her to pursue a graduate degree
in the eld o polymer chemistry.
Kathy’s research involves the synthesis andcharacterization o conjugated polymers or use in organic electronic
devices. She applied or the COPE ellowship in hopes o expanding her
knowledge in the eld o organic electronics and to build collaborations
with other research groups. The nancial support, seminar series, and
conerence unds provided by COPE are allowing her to achieve these
goals. Ater graduation, Kathy will seek a postdoctoral experience
beore going on to be a research proessor.
2009 COPE Fellows
8
Publications
(continued on page 10)
“Linear ripples and traveling circular ripples produced on polymers by thermal A
probes.” Gnecco, Enrico; Riedo, Elisa; King, William P. ; Marder, Seth R. and SzoszkiewRobert. PHYSICAL REVIEW B, 2009, 89, 23.
“Complete Link Budgets or Backscatter-Radio and RFID Systems. Grin, Joshuaand Durgin, Gregory D. IEEE ANTENNAS AND PROPAGATION MAGAZINE, 2009, 51,
“Mesoscale simulation o molecular resists: The efect o PAG distribution homogenon LER.” Lawson, Richard A. and Henderson, Cliford L. MICROELECTROENGINEERING, 2009, 86, 4-6, 741-744.
“Efect o acid anion on the behavior o single component molecular resincorporating ionic photoacid generators.” Lawson, Richard A.; Lee, Cheng-Tsu
Tolbert, Laren M. and Henderson, Cliford L. MICROELECTRONIC ENGINEERING, 2086, 4-6, 738-740.
“High resolution negative tone molecular resist based on di-unctional epoxpolymerization.” Lawson, Richard A.; Lee, Cheng-Tsung; Tolbert, Laren M.; Youn
Todd R. and Henderson, Cliford L. MICROELECTRONIC ENGINEERING, 2009, 86,
734-737
“Efect o phosphonic acid surace modiers on the work unction o indium tin ox
and on the charge injection barrier into organic single-layer diodes.” Sharma, AsHaldi, Andreas; Hotchkiss, Peter J.; Marder, Seth. R. and Kippelen, Bernard. JOURNOF APPLIED PHYSICS, 2009, 105, 7.
“Synthesis and Two-Photon Spectrum o a Bis(Porphyrin)-Substituted SquaraiOdom, Susan A.; Webster, Scott; Padilha, Lazaro A.; Peceli, Davorin; Hu, Hongh
Nootz, Gero; Chung, Sung-Jae ; Ohira, Shino; Matichak, Jonathan D.; PrzhonOlga V.; Kachkovski, Alexei D.; Barlow, Stephen; Bredas, Jean-Luc; Anderson, HarryHagan, David J.; Van Stryland, Eric W.; Marder, Seth R. JOURNAL OF THE AMERIC
CHEMICAL SOCIETY, 2009, 131, 22, 7510+.
“Excitons Sur Along Conjugated Polymer Chains.” Bredas, Jean-Luc and Silbey, Rob
SCIENCE, 2009, 323, 348-349.
“Specic contact resistance at metal/carbon nanotube interaces.” Jackson, Rode
and Graham, Samuel. APPLIED PHYSICS LETTERS, 2009, 94.
“Nano-Conjugate Fluorescence Probe or the Discrimination o Phosphate a
Pyrophosphate.” Kim, Ik-Bum; Han, Man H.; Phillips, Ronnie L.; Samanta, BappadiRotello, Vincent M.; Zhang, Z. John and Bunz, Uwe H. F. CHEMISTRY-A EUROPEJOURNAL, 2009, 15, 449-456.
“Dimensional considerations in achieving large quality actors or resonant siliccantilevers in air.” Naeli, Kianoush and Brand, Oliver. JOURNAL OF APPLIED PHYS
2009, 105.
“Synthetic Approaches to Regioregular Unsymmetrical Dialkoxy-Substituted Poly(
Glen L. and Collard, David M. MACROMOLECULES, 2009, 42, 43-51.“Research in Macromolecular Science: Challenges and Opportunities or the NDecade.” Ober, C. K.; Cheng, S. Z. D.; Hammond, P. T.; Muthukumar, M.; ReichmanisWooley, K. L. and Lodge, T. P. MACROMOLECULES, 2009, 42, 465-471.
“SPICE Optimization o Organic FET Models Using Charge Transport Elements.” VaidVaibhav; Kim, Jungbae; Haddock, Joshua N.; Kippelen, Bernard and Wilson, Den
IEEE TRANSACTIONS ON ELECTRON DEVICES, 2009, 56, 38-42.
“Synthesis, electron mobility, and electroluminescence o a polynorborne
“Interaction o Charge Carriers with Lattice Vibrations in Organic MolecuSemiconductors: Naphthalene as a Case Study.” Coropceanu, Veaceslav; Sanch
Carrera, Roel S.; Paramonov, Pavel; Day, Graeme M. and Bredas, Jean-Luc. JOURNALPHYSICAL CHEMISTRY C, 2009, 113, 4679-4686.
“High perormance InGaZnO thin-lm transistors with high-k Ba0.5Sr0.5TiO3 ginsulator (vol 93, 242111, 2008).” Kim, J. B.; Fuentes-Hernandez, Canek and KippeBernard. APPLIED PHYSICS LETTERS, 2009, 94.
“Growing ‘Nanoruit’ Textures on Photo-Crosslinked SU-8 Suraces through LayerLayer Grating o Hyperbranched Poly(Ethyleneimine).” Ford, J.; Marder, Seth and Ya
S. CHEMISTRY OF MATERIALS, 2009, 21, 476-483.
“Covalent and orthogonal multi-unctionalization o terpolymers.” Yang, Si Kyung aWeck, Marcus. SOFT MATTER, 2009, 5, 582-585.
“Efects o Heteroatoms on Aromatic pi-pi Interactions: Benzene-Pyridine aPyridine Dimer.” Hohenstein, Edward G. and Sherrill, C. David. JOURNAL OF PHYSICCHEMISTRY A, 2009, 113, 878-886.
“Macrocyclic Cyclooctene-Supported AlCl-Salen Catalysts or Conjugated AdditReactions: Efect o Linker and Support Structure on Catalysis.” Madhavan, Nand
and Takatani, Tai; Sherrill, C. David and Weck, Marcus. CHEMISTRY-A EUROPE
the introduction o innovative products into the marketplato benet the economy in an environmentally sustainab
manner. The Center’s eorts encompass education andiversity enhancement in order to develop a globally prepare
workorce capable o maintaining the US at the oreront these critical technology elds.
Over the past seven years CMDITR has evolved to haverather diverse aculty: currently, 12 o 30 unded academ
aculty are rom underrepresented groups; 12% o our curremember graduate students are underrepresented minoriti
and 35% are emale, or a total o 44% underrepresentemember graduate students (minority women counted on
once). The Center’s knowledge transer program has evolveas well, spinning o new companies including LumoFlex LLat Gatech, and orming alliances with large companies
well, including with Solvay SA that provide opportunities transition CMDITR-developed technology into the commerc
sector. CMDITRs’ educational programs have evolved to plagreater emphasis on undergraduate and graduate education
order to ocus our eorts on training students or not only th
Nine COPE aculty rom ve Schools rom Georgia Tech are
members o the NSF Science and Technology Center or Materialsand Device or Inormation Technology Research (CMDITR).
CMDITR is headquartered at the University o Washington(Proessor Philip Reid, Director) with participation rom Georgia
Tech, University o Arizona, Norolk State University, University o Central Florida, Norolk State University, University o Maryland,Cornell University, and the Caliornia Institute o Technology.
CMDITR was conceived to meet the growing need or inormationtechnology materials and devices that would provide greater
bandwidth, lower power consumption, chipscale integration o electronics and photonics, manuacturing exibility, and reduced
cost. The decision to ocus on organic and hybrid materialswas predicated on the conviction that CMDITR could produce
undamentally new materials to outperorm those currentlyavailable. The ounding PIs oresaw that improved educationaltools and recruitment strategies were needed to prepare a
workorce to develop, use, and advance this new technology.
CMDITR is well-aligned to play an important role in Americancompetitiveness and national security. It is now approaching theend o year seven o a ten-year program.
CMDITR’s mission is to create and use molecular building
blocks in the rational design o new devices and subsystemsor a broad spectrum o photonic and electronic applications,
specically in the areas o telecommunications, computing,lighting, renewable energy, transportation, and deense. TheCenter’s work advances the understanding o the electrical and
optical properties o novel organic and organic-inorganic hybridmaterials, and o the dependence o these properties on the
organizational structure o materials. The result o these eorts is
technical parts o their careers, but also the aspeco their careers that relate to ethics, diversity, an
business. As the Center’s students mature, CMDIThas instituted new proessional developme
programs to prepare them or the transition their next positions.
CMDITR has made signicant advances in thdevelopment o electro-optic materials or sensin
modulators and THz generation, in the developme
o materials or all optical switching applicationthe development o materials and devices organic electronics, specically related to organ
“Low-voltage exible organic complementary inverters with high noise margin and
high dc gain.” Zhang, Xiao-Hong; Potscavage, William J., Jr.; Choi, Seungkeun andKippelen, Bernard. APPLIED PHYSICS LETTERS, 2009, 94.
“Compact on-chip intererometers with high spectral sensitivity.” Chamanzar,Maysamreza; Momeni, Babak and Adibi, Ali. OPTICS LETTERS, 2009, 34, 220-222.
“High-Q micromechanical resonators in a two-dimensional phononic crystal slab.”Mohammadi, Saeed; Etekhar, Ali Asghar; Hunt, William D. and Adibi, Ali. APPLIEDPHYSICS LETTERS, 2009, 94.
“Design and demonstration o compact, wide bandwidth coupled-resonator lters ona silicon-on-insulator platorm.” Li, Qing; Soltani, Mohammad; Yegnanarayanan, Sivaand Adibi, Ali. OPTICS EXPRESS, 2009, 17, 2247-2254.
“Molecular Dynamics Simulations o Solvation and Solvent Reorganization Dynamicsin CO2-Expanded Methanol and Acetone.” Gohres, John L.; Popov, Alexander V.;Hernandez, Rigoberto; Liotta, Charles L. and Eckert, Charles A. JOURNAL OF CHEMICAL
THEORY AND COMPUTATION, 2009, 5, 267-275.
“Variable-ratio power splitters using computer-generated planar holograms onmultimode intererence couplers.” Tseng, Shuo-Yen; Choi, Seungkeun and Kippelen,Bernard. OPTICS LETTERS, 2009, 34, 512-514.
“Dipolar Second-Order Nonlinear Optical Chromophores Containing Ferrocene,Octamethylerrocene, and Ruthenocene Donors and Strong pi-Acceptors: CrystalStructures and Comparison o pi-Donor Strength.” Kinnibrugh, Tifany L.; Salman,
Seyhan; Getmanenko, Yulia A.; Coropceanu, Veaceslav; Porter, III, William W.; Timoeeva, Tatiana V.; Matzger, Adam J.; Bredas, Jean-Luc; Marder, Seth and Barlow,Stephen. ORGANOMETALLICS, 2009, 28, 1350-1357.
“Optical properties o one-dimensional metal-dielectric photonic band-gap structureswith low index dielectrics.” Owens, Daniel; Fuentes-Hernandez, Canek and Kippelen,
Bernard. THIN SOLID FILMS, 2009, 517, 2736-2741.“Organic photovoltaics.” Kippelen, Bernard and Bredas, Jean-Luc. ENERGY &ENVIRONMENTAL SCIENCE, 2009, 2, 251-261.
“Interaction o Charge Carriers with Lattice Vibrations in Organic MolecularSemiconductors: Naphthalene as a Case Study.” Coropceanu, Veaceslav; Sanchez-
Carrera, Roel S.; Paramonov, Pavel ; Day, Graeme M. and Bredas, Jean-Luc. JOURNALOF PHYSICAL CHEMISTRY C, 2009, 113, 4679-4686.
“Substituent efects on the electronic structure o siloles.” Zhan, Xiaowei; Barlow,
Stephen and Marder, Seth. CHEMICAL COMMUNICATIONS, 2009, 15, 1948-1955.
“Thermal efects in packaging high power light emitting diode arrays.” Christensen,Adam and Graham, Samuel. APPLIED THERMAL ENGINEERING, 2009, 29, 364-371.
“Lithography o Sel-Assembled Ribbons.” Jarvholm, Jonas; Srinivasarao, Mohan and Tolbert, Laren M. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2009, 131, 398.
“Impact o Peruorination on the Charge-Transport Par Oligoacene Crystals.” Delgado,
M. Carmen Ruiz; Pigg, Kathryn R.; Filho, Deme Silva; Gruhn, Nadine E.; Sakamoto,Youichi; Suzuki, Toshiyasu; Malave Osuna, Reyes; Casado, Juan; Hernandez, Victor;Lopez Navarrete, Juan Teodomiro; Martinelli, Nicolas G.; Cornil, Jerome; Sanchez-Carrera, Roel S.; Coropceanu, Veaceslav and Bredas, Jean-Luc. JOURNAL OF THE
AMERICAN CHEMICAL SOCIETY, 2009, 131, 1502-1512.
“Intramolecular Electron-Transer Rates in Mixed-Valence Tria Measurement byVariable-Temperature ESR Spectroscopy and Comparison with Optical Data.”
Lancaster, Kelly; Odom, Susan A.; Jones, Simon C.; Tha S.; Marder, Seth; Bredas, Jean-Luc; Coropceanu, Veaceslav; Barlow, Stephen. JOURNAL OF THE AMERICAN CHEMICALSOCIETY, 2009, 131, 1717-1723.
Tanner, David B.; Rinzler, Andrew G.; Barlow, Stephen; Bredas, Jean-Luc; Kippelen,Bernard; Marder, Seth and Reynolds, John R. JOURNAL OF THE AMERICAN CHEMICALSOCIETY, 2009, 131, 2824.
“Reactive desorption electrospray ionization mass spectrometry o natural productso a marine alga.” Nyadong, Leonard; Hohenstein, Edward G.; Galhena, Asiri AmyL.; Kubanek, Julia; Sherrill, C. David and Fernandez, Facundo M. ANALYTICAL AND
BIOANALYTICAL CHEMISTRY, 2009, 394, 245-254.
“Substituent Efects in Sandwich Congurations o Multiply S Benzene Dimers AreNot Solely Governed By Electrostatic Control.” Ringer, Ashley L. and Sherrill, C. David.JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2009, 131, 4574.
“Tailoring the work unction o indium tin oxide electrodes in electrophosphorescentorganic light-emitting diodes.” Sharma, Asha; Hotchkiss, Peter J.; Marder, Seth andKippelen, Bernard. JOURNAL OF APPLIED PHYSICS, 2009, 105.
“Efect o phosphonic acid surace modiers on the work unction o indium tin oxideand on the charge injection barrier into organic single-layer diodes.” Sharma, Asha;Haldi, Andreas; Hotchkiss, Peter J.; Marder, Seth and Kippelen, Bernard. JOURNAL OF
APPLIED PHYSICS, 2009, 105.
“Cruciorm-Silica Hybrid Materials.” Zucchero, Anthony J.; Shiels, Rebecca A.; McGrier,
Psa To, M. Alicia; Jones, Christopher W. and Bunz, Uwe H. F. CHEMISTRY-AN ASIANJOURNAL, 2009, 4, 262-269.
“Theoretical Characterization o the Indium Tin Oxide Surace and its Binding S
or Adsorption o Phosphonic Acid Monolayers.” Paramonov, P. B.; Paniagua, SHotchkiss, Peter J.; Jones, Simon C.; Armstrong, Neal R.; Marder, Seth and Bredas, JeLuc. CHEMISTRY OF MATERIALS, 2009.
“Gold nanoparticle-PPE constructs as biomolecular materi understanding electrostatic and hydrophobic interactions.” Phillips, Ronnie L.; Miranda, OscarMortenson, Da Subramani, Chandramouleeswaran and Rotello, Vincent M. and Bu
Uwe H. F. SOFT MATTER, 2009, 5, 607-612.
“Water Soluble Cruciorms: Efect o Suractants on Fluorescence.” Tolosa, Juan aBunz, Uwe H. F. CHEMISTRY-AN ASIAN JOURNAL, 2009, 4, 270-276.
“Modication o the Surace Properties o Indium Tin Oxide with Benzylphospho
Acids: A Joint Experimental and Theoretical Study.” Hotchkiss, Peter J.; Li, Paramonov, Pavel; Paniagua, S.A.; Jones, Simon C.; Armstrong, Neal R.; Bredas, Je
Luc and Marder, Seth. ADVANCED MATERIALS, 2009.
“Hyperbranched: A Universal Conjugated Polymer Platorm.” Tolosa, Juan; Kub, Cand Bunz, Uwe H. F. ANGEWANDTE CHEMIE, 2009, 48 1-4.
“Saccharide Polymer Brushes To Control Protein and Cell Adhesion to Titaniu
Raynor, Jenny E.; Petrie, Timothy A.; Fears, Kenan P.; Latour, Robert A.; Garcia, Andreand Collard, David M. BIOMACROMOLECULES, 2009, 10, 748-755.
“Low-voltage InGaZnO thin-lm transistors with Al2O3 gate grown by atomic la
deposition.” Kim, J. B.; Fuentes-Hernandez, Canek; Potscavage, Jr., William J.; Zhang-H. and Kippelen, Bernard. APPLIED PHYSICS LETTERS, 2009, 94.
“Photoinduced Intramolecular Electron Transer in Conjugated Perylene BisimiDithienothiophene Systems: A Comparative Study o a Small Molecule and a Polym
Huang, Jie; Wu, Yishi; Fu, Hongbing; Zhan, Xiaowe Jiannian; Barlow, Stephen aMarder, Seth R. JOURNAL OF PHYSICAL CHEMISTRY A, 2009, 113, 5039-5046.
“Femtosecond-Laser Desorption o H-2 (D-2) rom Ru(0001): Quantum and Class
Approaches.” Vazhappilly, Tijo; Klamroth, Tillmann; Saalrank, and HernandRigoberto. JOURNAL OF PHYSICAL CHEMISTRY C, 2009, 113, 7790-7801.
“A Versatile Co(bisalen) Unit or Homogeneous and Heterogeneous Cooperat
Catalysis in the Hydrolytic Kinetic Resolution o Epoxides.” Venkatasubbaiah, KrishnGill, Christopher S.; Tait; Sherrill, C. David and Jones, Christopher W. CHEMISTRYEUROPEAN JOURNAL, 2009, 15, 3951-3955.
“Two Beams Squeeze Feature Sizes in Optical Lithography.” Perry, Joseph W. SCIEN2009, 324, 892-893.
“Shape separation o gold nanorods using centriugation.” Sharma, Vivek; PaKyoungweon; Srinivasarao, Mohan. PROCEEDINGS OF THE NATIONAL ACADEMY
SCIENCES OF THE U OF AMERICA, 2009, 106, 4981-4985.
“A New Class o Cyanine-like Dyes with Large Bond-Length Alternation.” Ohira, ShHales, Joel M.; Thorley, Karl J.; Harry L.; Perry, Joseph W. and Bredas, Jean-Luc. JOURN
OF THE AMERICAN CHEMICAL SOCIETY, 2009, 131, 6099.
“Synthesis and Photophysical Properties o Donor- and Acceptor-Substitu
1,7-Bis(arylalkynyl)perylene-3,4:9,10-bis(dicarboximide)s.” An, Zesheng; Odom, SuA.; Kelley, Richard F.; Huang, Chun; Zhang, Xuan; Barlow, Stephen; Padilha, LazaroFu, Jie; Webster, Scott; Hagan, David J.; Van Stryland, Eric W.; Wasielewski, MichaelMarder, Seth. JOURNAL OF PHYSICAL CHEMISTRY A, 2009, 113, 5585-5593.
“A hybrid encapsulation method or organic electronics.” Kim, N.; Potscavage, Jr., WDomercq, B.; Graham, S. APPLIED PHYSICS LETTERS, 2009, 94.
“Non-classical scaling or orced wetting o a nematic uid on a polymeric ber.” PaJung Ok; Rey, Alejandro D. and Srinivasarao, Mohan. SOFT MATTER, 2009, 5, 22
F. CHEMISTRY-A EUROPEAN JOURNAL, 2009, 15, 4990-4993.
“Fluorescent Pluronic nanodots or in vivo two-photon imaging.” Maurin, MathiVurth, Laeticia; Vial, Jean-Claude; Baldeck, Patrice; Marder, Seth R.; Van der Sand
“A special issue o Molecular Physics honoring Pro. Henry F. Schaeer III.” CrawordDaniel and Sherrill, C. David. MOLECULAR PHYSICS, 2009, 107, 711.
“Colloidal dispersion o gold nanorods: Historical background, optical propertseed-mediated synthesis, shape separation and sel-assembly.” Sharma, VivPark, Kyoungweon and Srinivasarao, Mohan. MATERIALS SCIENCE & ENGINEERIR-REPORTS, 2009, 65, 1-38.
“The abrication o high aspect ratio carbon nanotube arrays by direct laintererence patterning.” Lasagni, Andre; Cross, Robert; Graham, Samuel and DSuman. NANOTECHNOLOGY, 2009, 20.
“Fabrication o a Blue M x N Pixel Organic Light-Emitting Diode Video DispIncorporating a Thermally Stable Emitter.” Haldi, Andrea; Kim, Jung B; DomerBenoit; Abhishek P; Barlow, Stephen; Giford, Angela P; Jenekhe, Samson A; Mard
Seth R. and Kippelen, Bernard. JOURNAL OF DISPLAY TECHNOLOGY, 2009, 5, 120-1
“An iterative curve tting method or accurate calculation actors in resonators.” Na
Kianoush and Brand, Oliver. REVIEW OF SCIENTIFIC INSTRUMENTS, 2009, 80.