Page 1
208
REFERENCES
1. Adamiv V.T., Burak Ya.V. and Teslyuk I.M., (2006), ‘Growth and
properties of new nonlinear LiKB4O7 single crystals’, J. Crystal Growth, Vol. 289, No.1, pp. 157-160.
2. Al. Karaghouli A.R. and Koezle T.F., (1975), ‘Neutron diffraction study of L-phenylalanine hydrochloride’, Acta Cryst., Vol. B31, pp.2461-2465.
3. Alban Ferrier., Matias Velázquez., Xavier Portier., Jean-Louis Doualan and Richard., (2006), ‘Tl3PbBr5: A possible crystal candidate for middle
infrared nonlinear optics’, J. Crystal Growth, Vol. 289, No.1, pp. 357-365.
4. Aoki K., Kozo Nagano and Yiochi Iitaka (1971), ‘The crystal structure of
L-arginine phosphate monohydrate’, Acta Crystallogr. B27, pp. 11−25.
5. Apreyan R.A., Karapetyan H.A. and Petrosyan A.M. (2007), ‘On molecular
structure of L-nitroarginine’, J. Molecular Structure, Vol 874, pp. 187-193.
6. Arivanandhan M., Sankaranarayanan K. and Ramasamy P., (2007), ‘Melt
growth of novel organic nonlinear optical material and its characterization’,
Materials Letters, Vol.61, No.26, pp.4836-4838.
7. Arjunan S., Mohan Kumar R., Mohan R. and Jayavel R. (2008), ‘Growth
and dielectric, mechanical, thermal and etching studies of an organic nonlinear optical L-arginine trifluoroacetate (LATF)’, Materials Research
Bulletin, Vol. 43, pp. 2018-2025.
8. Aruna S., Bhagavannarayana G., Palanisamy M., Preema C. Thomas., Babu
varghese. and Sagayaraj P., (2007a), ‘Growth, morphological, mechanical and dielectric studies of semi organic NLO single crystal: L-argininium
perchlorate’, J. Crystal Growth, Vol. 300, pp. 403-408.
9. Aruna S., Bhagavannarayana G. and Sagayaraj P., (2007c), ‘Investigation
on the physicochemical properties of nonlinear optical (NLO) single
crystal: L-histidinium dinitrate’, J. Crystal Growth, Vol. 304, pp. 184-190.
10. Aruna S., Vimalan M., Preema C. Thomas, Thamizharasan K., Ambujam
K., Madhavan J. and Sagayaraj P., (2007b), ‘Growth and characterization
of semi organic nonlinear optical LHPCL crystal.’, Cryst. Res. Tech., Vol.
42, pp. 180-185.
11. Arunmozhi G. and E.de Gomes M. (2004), ‘Metastability and crystal
growth kinetics of L-arginine phosphate’, Cryst. Res. Tech., Vol. 39,
pp. 34−39.
Page 2
209
12. Balakrishnan T. and Ramamurthi K., (2008), ‘Growth, structural, optical, thermal and mechanical properties of glycine zinc chloride single crystal’,
Materials Letters,Vol. 62 ,pp. 65–68.
13. Balamurugan N., Lenin M. and Ramasamy P., (2007), ‘Growth of
potassium acid phthalate crystals by Sankaranarayanan–Ramasamy (SR) method and its optical characterization’, Materials Letters, Vol. 61,
No. 8-9, pp.1896-1898.
14. Balasanyan R.N., Gabrielyan V.T., Kokanyan E.P. and Feldvary I. (1990),
‘Composition and homogeneity of LiNbO3 crystal in connection with
growth conditions I. Influence of an electric field’, Sov. Phys. Crystallogr.,
Vol. 35, pp. 907−910.
15. Balasubramanian D., Sankar R., Siva Shankar V., Murugakoothan P.,
Arulmozhichelvan P. and Jayavel R., (2008),’Growth and characterization
of semiorganic nonlinear optical rubidium bis-dl-malato borate single
crystals’,Materials Chemistry and Physics, Vol.107 ,pp. 57–60.
16. Batta Calleja F.J., Rueda D.R., Poster R.S. and Mead W.T. (1980), ‘New
aspects of the microhardness of ultra oriented polyetheline’, J. Mater.
Science, Vol. 15, pp. 762−765.
17. Becker P. (1998), ‘Borate materials in nonlinear optics,’ Advanced
Materials, Vol. 10, pp. 979−992.
18. Bhagavannarayana G., Parthiban S. and Meenakshisundaram S., (2006),
‘Enhancement of crystalline perfection by organic dopants in ZTS, ADP and KHP crystals as investigated by high-resolution XRD and SEM’, J.
Appl. Cryst., Vol. 39, pp. 784-790.
19. Bhaskaran A., Ragavan C. M., Sankar R., Mohankumar R.and Jayavel R.,
(2007), ‘Growth and characterization of semiorganic nonlinear optical tetrakis thiourea nickel chloride single crystals’, Crystal Research and
Technology, Vol. 42, No.5, pp. 477-482.
20. Bhat A.P., Aithal P.S., Mohan Rao P. and Avasthi D.K. (2000), ‘Effects of
swift heavy ions on the dielectric properties of doped and undoped
ammonium dihydrogen phosphate crystals,’ Nuclear Instruments and
Methods in Physis Research Section B: Beam Interactions with Materials
and Atoms, Vol. 166−167, pp. 964−967.
21. Boomadevi S., Mittal H.P. and Dhanasekaran R. (2004), ‘Synthesis, crystal
growth and characterization of 3-methyl 4-nitropyridine 1-oxide (POM)
single crystals’, J. Crystal Growth, Vol. 261, pp. 55−62.
22. Brice J. C. (1986), ‘Crystal Growth Processes’, John Wiley and Sons, New
York.
Page 3
210
23. Brice J.C. (1973), ‘The Growth of Crystals from Liquids’, North Holland publishing company, Amsterdam.
24. Brice J. C. (1972), ‘The Growth of Crystals from Liquids’, Wiley, New York.
25. Bube R.H. (1981), Photoconductivity of Solids, Wiley Interscience, New York.
26. Bube R.H. (1960), ‘Photoconductivity of Solids’, Wiley Interscience,
New York.
27. Buckley H.E. (1951), 'Crystal Growth', John Wiley and Sons, New York.
28. Bunget and M. Popescu, (1984) “Physics of Solid Dielectrics”, Elsevier,
New York.
29. Chemla D.S. and Zyss J. (1987), ‘Nonlinear Optical Properties of Organic
Molecules and Crystals’, Vol.1-2, Academic Press, Orlando, New York.
30. Chernov A.A. (1984), ‘Modern Crystallography III-Crystal Growth’,
Springer-Verlag, Solid State Series, Vol. 36, Berlin.
31. Christian R. (1990), ‘Solvents and Solvent Effects in Organic Chemistry’,
VCH, New York.
32. Czarnecki P., Wasicki J., Pajak Z., Goc R., Mahaszyfiska H.and Habryto
S., (1997), ‘PT-phase diagram of pyridinium perchlorate’, Journal of Molecular Structure, Vol. 404, pp. 175-180.
33. Dewey Jr C.F., Cook Jr W.R., Hodgson R.T. and Wynne J.J. (1975),
‘Frequency doubling in KB5O8⋅4H2O and NH4B5O8⋅4H2O to 217.3 nm,’
Appl. Phys. Lett., Vol. 26, pp. 714–716.
34. Dhanuskodi S., Pricilla Jeyakumari A., Manivannan S., Philip J. and Tiwari
S.K., (2007), ‘Semiorganic nonlinear optical material for frequency doubling: Preparation and properties of sodium p-nitrophenolate dihydrate
(SPNP)’, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy,’ Vol.66, pp.318-322.
35. Dhanuskodi S., Manivannan S. and Kirschbaum K., (2006), ‘Synthesis, structural, thermal and optical studies of 1-ethyl-2,6-dimethyl-4-hydroxy
pyridinium halides’, Spectrochimica Acta Part A: Molecular and
Biomolecular Spectroscopy, Vol. 64, pp. 504-511.
36. Dhanuskodi S. and Manivannan S. (2004), ‘Quadratic organic nonlinear
optical material : bis-2, 7-diethylaminohepta-2,5-dien-4-one,’ J. Crystal
Growth, Vol. 262, pp. 395–398.
Page 4
211
37. Dhanuskodi S. and Vasantha K. (2004), ‘Structural, thermal and optical characterizations of a NLO material: L-alaninium oxalate’, Cryst. Res.
Tech., Vol. 39, pp. 259–265.
38. Dhanuskodi S., Manivannan S. and Philip J. (2004), ‘Growth, structural,
thermal and optical properties of organic NLO cyrstal: N-methyllutidone trihydrate,’ J. Crystal Growth, Vol. 265, pp. 284–289.
39. Dharmaprakash S. M. and Mohan Rao P., (1989), ‘Dielectric properties of
hydrated barium cadmium oxalate crystals’, Journal of Materials Science
Letters, Vol. 8, pp. 1167.
40. Dhumane N. R., Hussaini S. S., Dongre V. G., Mahendra D. Shirtsat,
(2008), ‘Influence of glycine on the nonlinear optical (NLO) properties of
zinc (tris) thiourea sulfate (ZTS) single crystal’, Optical Materials,’ (Article
in press, Available online).
41. Dow J., Jensen L.H., Muzumdar S.K., Srinivasan R. and Ramachandran
G.N. (1970), ‘Structure of arginine hydrochloride monohydrate,’ Acta.
cryst, B26, pp. 1662-1671.
42. Eimerl D., Velsko S., Davis L., Wang F., Loiacono G. and Kennedy G.
(1989), ‘Deuterated L-arginine phosphate: A new efficient nonlinear
crystal’, IEEE J. Quantum Electronics, Vol. 25, pp. 179-193.
43. Elwell D. and Scheel H.J. (1975), ‘Crystal Growth from High Temperature
Solutions’, Academic Press Inc., London.
44. Faktor M.M. and Garrett I. (1974), ‘Growth of Crystals from Vapour’,
Chapmann and Hall, London.
45. Feigelson R.S., (2006), ‘Improving optical transparency in CdGeAs2
crystals by controlling crystalline defects’, J. Crystal Growth., Vol. 292, No. 2, pp.179-187.
46. Firdous Anwar (1988), ‘The assessment of urea related compounds as
nonlinear optical materials and the single crystal growth of urea and NN’
dimethyl urea’, Ph.D thesis, Dept. of Pure and Applied Chemistry,
University of Strathclyde, U.K.
47. Franken P.A., Hill A., Peters C.W. and Weinrich G. (1961), ‘Generation of
optical harmonics’, Phys. Rev. Lett., Vol.7, pp.118-119.
48. Freeda T.H and Mahadevan C, (2001) ‘Lattice variation and thermal
parameters of gel grown KDP crystals added with some ammonium
compounds’, Pramana-Journal of Physics, Vol 57, pp 829-836.
49. Gaffar M. A., Abu El-Fadl A. and Bin Anooz S. (2005), ‘ Growth and
characterization of undoped, Sr2+- and Mn2+-m doped ammonium
tetrachlorozincate’, Cryst. Res. Technol., Vol. 40, pp. 204-211.
Page 5
212
50. Geng Y.L., Xu D., Wang X.Q., Pan D. Y., Zgang G.H. and Yu G. W. (2005a), ‘Investigation of nucleation growth mechanism of MMTC crystal
by AFM’, J. Crystal Growth, Vol. 280, pp. 266 –270.
51. Geng Y.L., Xu D., Wang Y.L., Du W., Liu X.Y., Zhang G.H. and Wang
X.Q. (2005b), ‘Atomic force microscopy study on surface morphologies of {110} faces of MnHg (SCN)4 crystals’, J. Crystal Growth, Vol. 277, pp.
555 –559.
52. Geng Y.L., Xu D., Wang X.Q., Du W., Liu H.Y. and Zhang G.H. (2006),
‘Growth morphology of {110} faces of manganese mercury thirocyanate
crystals investigated by atomic force microscopy’, Material Chemistry and
Physics, Vol.96, pp.188-191.
53. Ginson P. Joseph, Philip J., Rajarajan K., Rajasekar S.A., Joseph Arul
Pragasam A., Thamizharasan K., Ravi Kumar S. M. and Sagayaraj P.
(2006), ‘Growth and characterization of an organometallic nonlinear optical
crystal of manganese mercury thiocyanate (MMTC)’, J. Crystal Growth,
Vol.296, pp. 51–57.
54. Goma S, Padma C.M, and Mahadevan C.K (2006) ‘Dielectric parameters
of KDP single crystals added with urea’, Material Letters, Vol 60, pp 3701-
3705.
55. Guiwu Lu., Wang Xinqiang., Xu Dong., Xia Hairui., Li Chunxi., Wang
Zihao and Wang Wenchuan., (2006), ‘A spectroscopy investigation of MnHg(SCN)4(H2O)2 (C4H9NO)2 crystals’, Materials Chemistry and
Physics, Vol.100, No.1, pp. 187-192.
56. Gulam Mohamed M., Rajarajan K., Mani G., Vimalan M., Prabha K.,
Madhavan J. and Sagayaraj P. (2007a), ‘Growth and characterization of 2-amino-5-chlorobenzophenone (2A-5CB) single crystals’, J. Crystal
Growth, Vol. 300, pp. 409- 414.
57. Gulam Mohamed M., Vimalan M., Jesudurai J. G. M., Madhavan J. and
Sagayaraj P., (2007b), ‘Growth and characterization of pure and doped
nonlinear optical L-arginine acetate single crystals’, Crystal Research and
Technology, Vol.42,No.10,pp.948-954.
58. Guojun Chen, Yicheng Wu and Peizhen Fu., (2006), ‘Growth and
characterization of a new nonlinear optical crystal Ca5(BO3)3F’, J. Crystal
Growth, Vol. 292, No.2, pp.449-453.
59. Haja Hameed A.S., Anandan P., Jayavel R., Ramasamy P. and Ravi G.,
(2003), ‘Synthesis, growth and characterization nonlinear optical material:
L-arginine fluoride’, J. Crystal Growth, Vol. 249, pp. 316-320.
60. Haja Hameed A.S., Rohani S., Yu W.C., Tai C.Y. and Lan C.W., (2006),
‘Surface defects and mechanical hardness of rapidly grown DAST crystals’, J. Crystal Growth, Vol. 297, No.1, pp. 146-151.
Page 6
213
61. Haja Hameed A.S., Rohani S., Yu W.C., Tai C.Y. and Lan C.W., (2007), ‘Growth and characterization of a new chelating agent added
4-dimethylamino-N-methyl-4-stilbazolium tosylate (DAST) single crystals’, Materials Chemistry and Physics, Vol. 102, No.1, pp. 60-66.
62. Haja Hameed A.S. and Rohani S., (2007), ‘Nucleation studies and surface SHG analysis of l-arginine phosphate monohydrate (LAP) family crystals’,
Materials Letters, Vol.61,No.29,pp.5141-5144.
63. Henisch H.K., (1988), ‘Crystals in Gels and Liesegang Rings’, Cambridge
Univ. Press. USA.
64. Henisch H.K and Garcia-Ruiz J.M., (1986), ‘Crystal growth in gels and
Liesegang ring formation’, J. Crystal Growth, Vol. 75, pp. 195-202.
65. Henisch H.K., (1970), ‘Crystal Growth in Gels’, Pennsylvania State Univ.
Press.
66. Hubner K.H., (1969), ‘Uber die borate 2BaO.5B2O3, Tief- BaO.B2O3,
2BaO.B2O3 and 4BaO.B2O3’, Neues Jahrb. Mineral Monatsh, pp. 335-343.
67. Jacques Barbier., (2007), ‘The non-centrosymmetric borate chlorides
Ba2TB4O9Cl (T = Al, Ga)’, Solid State Sciences, Vol. 9, pp. 344-350.
68. Jagannathan K., Kalainathan S., Gnanasekaran T., Vijayan N. and
Bhagavannarayana G., (2007), ‘Growth and characterization of a novel organic NLO crystal: 4 - ethoxy benzaldehyde - n - methyl 4 - stilbazolium
tosylate’, Crystal Research and Technology, Vol. 42, No. 5 pp. 483-487.
69. James J.A. and Kell R.C. (1975), ‘Crystal Growth’, Ed. Pamplin B.R.
Pergamon Press, New York.
70. Jayalakshmi. D and Kumar J., (2006), ‘Growth and characterization of bis
thiourea zinc acetate (BTZA)’, Cryst. Res. Technol., Vol. 41, No. 1, pp. 37- 40.
71. Jayaraman Ramajothi and Sivasubramanian, Dhanuskodi., (2003), ‘Optical
and microhardness studies of semiorganic nonlinear optical material:
L-histidine tetrafluoroborate’, Cryst. Res. Tech., Vol. 38, pp. 986–991.
72. Jiang M.H. and Fang Q., (1999), ‘Organic and semiorganic nonlinear
optical materials’ Adv.Mater.,Vol.13, No.11, pp. 1147.
73. Jianqin Zhang., Shenglai Wang., ChangShui Fang., Xun Sun., Qingtian
Gu., Yiping Li., Bo Wang., Bing Liu and Xiaoming Mu., (2007), ‘Growth
habit and transparency of sulphate doped KDP crystal’, Materials
Letters, Vol. 61, No.13, pp. 2703-2706.
74. Joseph Arul Pragasam A., Madhavan J., Gulam Mohamed M., Selvakumar
S., Ambujam K., and Sagayaraj P., (2006), ‘Growth and characterization of
Page 7
214
amino acid (glycine and valine) substituted L-arginine diphosphate single crystals’, Optical Materials, Vol. 29, pp.173-179.
75. Joseph G. P., Korah I., Raja Rajan K., Thomas P. C., Vimalan M., Madhavan J., and Sagayaraj P., (2007a), ‘The influence of metallic
substitution on the physical properties of manganese mercury thiyocyanate crystals’, Cryst. Res. Technol., Vol. 42, pp. 295-299.
76. Joseph G. P., Raja Rajan K., Vimalan M., Thomas P. C., Madhavan J., Ravi
Kumar S. M., Gulam Mohamed M., Mani G., and Sagayaraj P., (2007b),
‘Growth and characterization of non-linear optical crystal ZnCd(SCN)4’,
Cryst. Res. Technol., Vol. 42, pp. 247-252.
77. Joseph John .N and Mahadevan C.K., (2008), ‘Electrical measurements on
NaCl added ADP single crystals’, Mater.Manuf.Processes, Vol.23, pp.809-
815.
78. Joshi V.N., (1990), ‘Photoconductivity’, Marcel Dekker, New York.
79. Jumin Hao., Mei-Juan Han, Kunpeng Guo., Yuxia Zhao., Ling Qiu.,
Yuquan Shen. and Xiaoguang Meng, (2008) ‘A novel NLO azothiophene-
based chromophore: Synthesis, characterization, thermal stability and
optical nonlinearity’ Materials Letters, Vol 62, pp 973–976.
80. Jun Shen, Jimin Zheng, Yunxia Che and Bin Xi (2003), ‘Growth and properties of organic nonlinear optical crystals: L-tartartic acid-
nicotinamide, and D-tartaric acid-nicotinamide’, J. Crystal Growth, Vol. 257, pp. 136–140.
81. Kalaiselvi D., Mohan Kumar R. and Jayavel R., (2008), ‘Growth and characterization of nonlinear optical L-arginine maleate dihydrate single
crystals’, Materials Letters, Vol.61, No.4-5, pp.755-758.
82. Kalaiselvi D., Mohan Kumar R. and Jayavel R., (2007), ‘Growth and
characterization of nonlinear optical L-arginine maleate dihydrate single
crystals’, Materials Letters, (Article in Press, available online).
83. Kannan V., Rajesh N.P., Bairava Ganesh R. and Ramasamy P., (2004),
‘Growth and characterization of bisthiourea–zinc acetate, a new nonlinear
optical material,’ J. Crystal Growth, Vol. 269, pp. 565–569.
84. Kirubavathi K., Selvaraju K. and Kumararaman S., (2008), ‘Growth and
characterization of a new metal-organic nonlinear optical bis (thiourea)
cadmium zinc chloride single crystals’, Spectrochemica Acta part A:
Molecular and Biomolecular Spectroscopy, Vol. 71, pp. 1 – 4.
85. Krishnakumar V., Sivakumar S. and Nagalakshmi R.,(2008),’
Investigations on the physicochemical properties of the nonlinear optical
crystal for blue green laser generation’, Spectrochimica Acta Part A
(Article in Press, Available online).
Page 8
215
86. Kuchen Wu, Caiping Liu and Chaoyong Mang., (2007), ‘Theoretical studies on vibrational spectra and nonlinear optical property of L-arginine
phosphate monohydrate crystal’, Optical Materials, Vol. 29, pp. 1129 – 1137.
87. Kumaresan P., Moorthy Babu S. and Anbarasan P.M., (2008), ‘Thermal, dielectric studies on pure and amino acid (L-glutamic acid, L-histidine,
L-valine) doped KDP single crystals’ Optical Materials, Vol. 30,
pp. 1361-1368.
88. Kurtz S.K., (1968), ‘New nonlinear optical materials’, IEEE,
J. Quantum Electron, Vol. 4, pp. 578–584.
89. Kurtz S.K. and Perry T.T., (1968), ‘A powder technique for the evaluation
of nonlinear optical materials’, J. Appl. Phys., Vol. 39,
pp. 3798−38l3.
90. Lakshmana Perumal C.K., Arul Chakkaravarthi A., Rajesh N.P., Santhana
Raghavan P., Huang Y.C., Ichimura M. and Ramasamy P., (2002),
‘Synthesis, crystal growth and FTR, NMR, SHG studies of 4-methoxy
benzaldehyde-N-methyl-4-stilbazolilum tosylate (MBST)’, J. Crystal
Growth, Vol. 240, pp. 212–217.
91. Lakshmanaperumal C.K., Arulchakkaravarthi A., Balamurugan N.,
Santhanaraghavan R. and Ramasamy P., (2004), ‘Synthesis, crystal growth
characterisation of novel NLO material: 4-hydroxy benzaldehyde methyl-4-
stillbazolium tosylate,’ J. Crystal Growth, Vol. 265, pp. 260–265.
92. Laudise R.A. (1975), ‘Crystal Growth and Characterization’, Ed. Ueda R. and Millin J.B., North-Holland Publishing Co.
93. Li G., Liping X., Su G., Zhuang X., Li Z. and He Y., (2005), ‘Study on the growth and characterization of KDP-type crystals’, J. Crystal Growth,
Vol.274, pp. 555 –562.
94. Lin. Y.Y., Rajesh N.P., Santhana Raghavan P., Ramasamy P. and
Huang Y.C. (2002), ‘Crystal growth of two-component new novel organic NLO crystals,’ Materials Letters, Vol. 56, pp. 1074–1077.
95. Lines M. E. and Glass A. M., (1977), ‘Principle and Application of
Ferroelectrics’, Oxford University Press, Oxford, UK.
96. Liu X. J., Wang Z. Y., Xu D., Wahg X. Q., Song Y. Y., Yu W. T. and
Guo W. F., (2007), ‘Investigation on the micro-crystallization of
L-arginine trifluoroacetate (LATF) crystals’, J. Alloys and Compounds,
Vol. 441, pp. 323-326.
97. Lydia Caroline M. and Vasudevan S., (2008), ‘Growth and characterization
of an organic nonlinear optical material: L-alanine alaninium nitrate’,
Materials Letters (Article in Press, Available online).
Page 9
216
98. Madhavan J., Aruna S., Anuradha A., Prem Anand D., Vetha Potheher I., Thamizharasan K. and Sagayaraj P., (2007a) ‘Growth and
Characterization of a new nonlinear optical L-histidine acetate single crystals.’, Optical Materials, Vol. 29, pp. 1211-1216.
99. Madhavan J., Aruna S., Prabha K., Packium Julius J., Ginson P. Joseph,Selvakumar S. and Sagayaraj P., (2006), ‘Growth and
characterization of a novel NLO crystal L-histidine hydrofluoride dihydrate
(LHHF)’, J. Crystal Growth, Vol. 293, pp. 409-414.
100. Madhavan J., Aruna S., Thomas P.C., Vimalan M., Rajasekar S.A. and
Sagayaraj P., (2007b), ‘Growth and characterization of L-histidine
hydrochloride monohydrate single crystals’, Cryst. Res. Tech., Vol. 42,
pp. 59-64.
101. Mahadevan C., (1986), ‘1,2 –Dithiolene complexes of transition metal-
structural systematics and physical properties’, J. Crystallogr. Spectrose.
Res., Vol .16, pp.347-416.
102. Manivannan S. and Dhanuskodi S., (2004), ‘Synthesis, crystal growth,
structural and optical properties of an organic NLO material,’ J. Crystal
Growth, Vol. 262, pp. 473–478.
103. Manonmani N., Mahadevan C.K., and Umayorubhagan V., (2007), ‘Growth and studies of the new crystal formed with NaCl and CaCl2’,
Mater. Manuf. Process, Vol 22, pp 388-392.
104. Mariusz J. Krasinski, and Ranieri Rolandi, (1996), ‘Ex situ investigation of
surface topography of as-grown potassium dihydrogen phosphate crystals by atomic force microscopy,’ J. Crystal Growth, Vol. 169, pp. 548–556.
105. Martin Britto Dhas S.A. and Natarajan S., (2008), ‘Growth and characterization of two new NLO materials from the amino acid family:
L-histidine nitrate and L-cysteine tartrate monohydrate’, Optics
Communications, Vol.281, pp.457–462.
106. Martin Britto Dhas S. A and Natarajan S., (2007), ‘Growth and
characterization of L-prolinium tartrate - A new organic NLO material’,
Crystal Research and Technology, Vol.42, No. 5, pp. 471-476.
107. Mazumdar S.K. and Srinivasan R., (1964), ‘X-ray analysis of L-arginine
hydrohalides,’ Current Science, Vol. 33, pp. 573–575.
108. Meena M. and Mahadevan C.K., (2008b), ‘Growth and characterization of
L-arginine added KDP and ADP single crystals’,Crystal Research
Technology ,Vol 43, pp 166-172.
109. Meera K., Muralidharan R., Dhanasekaran R., Prapun Manyum and
Ramasamy P., (2004), ‘Growth of nonlinear optical material: L-arginine
Page 10
217
hydrochloride and its characterization’, J. Crystal Growth, Vol. 263, pp. 510-560.
110. Mohan Kumar R., Rajan Babu D., Jayaraman D., Jayavel R. and Kitamura K., (2005), ‘Studies on the growth aspects of semi-organic
L-alanine acetate: a promising NLO crystal’, J. Crystal Growth, Vol. 275, pp. e1935-e1939.
111. Monaco S.B., Davis L.E., Velsko S.P., Wang F.T. and Eimerl D. (1987),
‘Synthesis and characaterization of chemical analogs of L-arginine
phosphate’, J. Crystal growth, Vol. 85, pp. 252–255.
112. Mullin J.W., (1976), ‘Industrial Crystallization 78’, Plenum Press, New
York.
113. Muralidharan R., Mohankumar R., Jayavel R. and Ramasamy P., (2003),
‘Growth and characterization of L-arginine acetate single crystals: a new
NLO material’, J. Crystal Growth, Vol. 259, pp. 321–325.
114. Mythili P., Kanagasekaran T. and Gopalakrishnan R., (2007),
‘Investigations on nucleation kinetics, growth and characterization of
sulphanilic acid single crystals’, Crystal Research and Technology, Vol. 42,
No. 8,pp. 791-799.
115. Nagaraja H.S., Upadhyaya V., Mohan Rao P., Sreeramana Aithal P. and Bhat A.P. (1998), ‘Organic nonlinear optical crystals of benzoyl glycine’,
J. Crystal Growth, Vol.193, pp. 674-678.
116. Nakamoto K. (Translated by D.R., Huang and R.Q. Wang), (1986),
‘Infrared and Raman Spectra of Inorganic and Coordination Compounds’, 3rd Edition, Wiley, Beijing, Chemical Industry Press, (in Chinese).
117. Nalwa H.S. and Miyata S., (1997), ‘Nonlinear Optics of Organic Molecules and Polymers’, CRC press, Boca Raton, New York.
118. Nalwa H.S. and Miyata S. (1996), ‘Nonlinear Optics of Organic Molecules
and Polymers’, CRC Press Inc., New York.
119. Narayana Moolya B. and Dharmaprakash S.M., (2006), ‘Synthesis, growth
and characterization of nonlinear optical crystal: L-tyrosine hydrobromide.’
J. Crystal Growth, Vol. 290, pp. 498-503.
120. Neil H.O., (1967), ‘Hardness Measurements of Metals and Alloys,’
Chapman and Hall, London.
121. Newman P.R, Warren L.F., Cunningham P., Chang T.Y., Copper D.E.,
Burdge G.L., Polak dingels P. and Lowe-Ma C.K., (1990), ‘Semi organics,
a new class of NLO materials’, in "Advanced Organic Solid State
Materials", Ed. Chiang C.Y., Chaikan P.M. and Cowan D.O., Materials
Research Society Symposium Proceedings, Vol. 173, pp. 557-561.
Page 11
218
122. Nicoud J. F. and Twieg R.J., (1987), ‘Nonlinear Optical Properties of Organic Molecules and Crystals’, Eds. D.S. Chemla and J. Zyss, Academic
press, London, pp. 227–296.
123. Nisha Santha Kumari P., Kalainathan S. and Arunai Nambi Raj N., (2007),
‘Study of optimum growth condition of zinc cadmium thiocyanate (ZCTC) single crystals in silica gel’, Materials Letters, Vol.61, No.22,
pp.4423-4425.
124. Onitsch E.M., (1956), ‘The present status of testing the hardness of
materials’, Mikroskopie, Vol. 95, pp. 12-14.
125. Oussaid N., Becker P., Kemiche M. and Carabatos N. C., (1998), ‘Low
temperature phase transitions in zinc tris(thiourea) sulfate(ZTS) determined
by Raman scattering’, Phys. Stat. Sol. (b), Vol. 207, pp. 103-110.
126. Owens C., Bhat K., Wang W.S., Tan A., Aggarwal M.D., Benjamin G.
Penn, Donald O. and Frazier, (2001), ‘Bulk growth of high quality
nonlinear optical crystals of L-arginine tetrafluoroborate (L-AFB)’,
J. Crystal Growth, Vol. 225, pp. 465–469.
127. Owezarek I. and Sangwal K., (1990), ‘Effect of impurities on the growth of
KDP crystals: On the mechanism of adsorption of (100) faces from tapering
data,’ J. Crystal Growth, Vol. 99, pp. 827–837.
128. Packiam Julius J., Joseph Arul Pragasam A., Rajasekar S.A., Selva Kumar
S., Stephen A. and Sagayaraj P., (2004b), ‘Studies on the growth and characterization of L-arginine formate single crystals’, J. Crystal Growth,
Vol. 267, pp. 619–623.
129. Packiam Julius J., Rajasekar S.A., Joseph Arul Pragasam A., Joseph V. and
Sagayaraj P., (2004a), ‘Growth, microhardness and optical characterization of L-arginine hydrofluoride (LAHF) single crystals,’ Mater. Sci. Engg. B,
Vol. 107, pp. 259–263.
130. Padmaja L., Vijayakumar T., Hubert Joe I., Reghunadhan Nair C. P. and
Jayakumar V. S., (2006), ‘Vibrational spectral studies and the non-linear
optical properties of a novel NLO material L-prolinium tartrate’, Journal of
Raman Spectroscopy, Vol. 37, No. 12, pp. 1427-1441.
131. Pamplin B.R., (1980), ‘Crystal Growth’, Pergman Press, London.
132. Pamplin B.R., (1979), ‘Crystal Growth’, Pergamon Press, Oxford.
133. Patil .P.S., Dharmaprakash.S.M., (2008), ‘Crystal growth of 2, 4, 5-
Trimethoxy-4′-chlorochalcone and its characterization’, Materials Letters,
Vol.62 ,pp. 451–453.
134. Patil P.S. and Dharmaprakash S.M., Hoong-Kun Fun and Karthikeyan
M.S., (2006), ‘Synthesis, growth and characterization of 4-OCH3-4’-
Page 12
219
nitrochalcone single crystal: A potential NLO material’, J. Crystal Growth, Vol.297, No.1, pp. 111-116.
135. Perumal R. and Moorthy Babu S., (2008a) ‘Growth and characterization of an organometallic nonlinear optical material tri-allylthiourea cadmium
chloride (ATCC)’, Materials Chemistry and Physics, Vol.107, pp. 23–27.
136. Perumal R. and Moorthy Babu S., (2007), ‘Effect of different metal ions on
structural, thermal, spectroscopic and optical properties of ATCC and
ATMC single crystals’, Crystal Research and Technology, Vol. 42, No. 8,
pp. 838-843.
137. Perumal R. and Moorthy Babu S., (2008b), ‘Growth and characterization of
an organometallic tri-allylthiourea complex nonlinear optical crystals’,
J. Crystal Growth, Vol. 310, pp. 2050 – 2057.
138. Petrosyan A.M., Sukiasyan R.P., Karapetyan H.A., Terzyan S.S. and
Feigelson R.S. (2000), ‘Growth and investigation of new nonlinear optical
crystals of LAP family’, J. Crystal Growth, Vol. 213, pp. 103-111.
139. Praveen Kumar P., Manivannan V., Tamilselvan S., Senthil S., Victor
Antony Raj, Sagayaraj P. and Madhavan J., (2008), ‘Growth and
characterization of a pure and doped nonlinear optical L-histidine acetate
single crystals’,Optics Communications,Vol.281, pp. 2989-2995.
140. Preema C. Thomas, Jolly Thomas, Packiam Julius J., Madhavan J.,
Selvakumar S. and Sagayaraj P. (2005), ‘Growth and characterization of L-argininium dinitrate’, J. Crystal Growth, Vol. 277, pp. 303-307.
141. Preema C. Thomas, Lanka Bhushan Kumar, Anuradha A., Aruna S., Ginson P. Joseph and Sagayaraj P., (2006), ‘Growth and characterization of
nonlinear optical single crystals of L-arginine diiodate.’, J. Crystal Growth, Vol. 290, pp. 560-564.
142. Prem Anand D., Gulam Mohammed M., Rajasekar S. A., Selvakumar S.,
Joseph Arul Pragasam A. and Sagayaraj P., (2006), ‘Growth and
characterization of pure, benzophenone and iodine doped benzoyl glycine
single crystals’, Materials Chemistry and Physics, Vol. 97, No. 2-3,
pp. 501-505.
143. Pricilla Jeyakumari A., Manivannan S. and Dhanuskodi S., (2007),
‘Spectral and optical studies of 2-amino-5-nitropyridinium dihydrogen
phosphate: A semiorganic nonlinear optical material’, Spectrochimica Acta
Part A, Vol. 67, pp. 83–86.
144. Pricilla Jeyakumari A., Danushkodi S. and Manivannan S., (2006) ‘Phase
matchable semiorganic NLO material for frequency doubling:
L-arginine tetrafluroborate’, Spectrochimica Acta Part A, Vol. 63,
pp. 91-95.
Page 13
220
145. Priya M and Mahadevan C.K., (2009), ‘Studies on multiphased mixed crystals of NaCl, KCl and KI’, Cryst. Res. Technol., Vol .44, pp. 92-102.
146. Rai R.N., Ramasamy P. and Lan C.W. (2002), ‘Synthesis and crystal growth of binary organic NLO material UNBA,’ J. Crystal Growth,
Vol. 235, pp. 499–504.
147. Rajan Babu D., Jayaraman D., Mohan Kumar R., Ravi G. and Jayavel R.,
(2003), ‘Growth aspects of semi-organic nonlinear optical L-arginine
tetrafluoroborate single crystals’, J. Crystal Growth, Vol. 250,
pp. 157–161.
148. Rajarajan K., Ginson Joseph P., Ravi Kumar S. M., Vetha Pothenher I.,
Joseph Arul Pragasam A., Ambujam K., and Sagayaraj P., (2007a),
‘Growth and optical studies of a novel organometallic complex NLO
crystal: tetrathiourea cadmium (II) tetrathiocyanato zinc (II)’, Materials and
Manufacturing Process, Vol. 22, pp.1-4.
149. Rajarajan K., Preema C. Thomas, Vetha Potheher I., Ginson P. Joseph,
Ravi Kumar S.M., Selvakumar S. and Sagayaraj P., (2007b), ‘Growth and
characterization of organometallic nonlinear optical TMTM single
crystals’, J. Crystal Growth, Vol.304, No. 2, pp. 435-440.
150. Rajarajan K., Sankar R., Vetha Potheher I. and Sagayaraj P., (2008), ‘Investigations on the nucleation kinetics of tetrathiourea mercury (II)
tetrathiocyanato zinc (II) single crystals, Materials Letters, (Accepted, Article in press).
151. Rajarajan K., Selvakumar S., Ginson P. Joseph, Samikkannu S., Vetha Potheher I. and Sagayaraj P., (2006a), ‘Optical, dielectric and
photoconductivity studies of bis(dimethylsulfoxide) tetrathiocyanato-cadmium(II) mercury(II) NLO single crystals’, Optical Materials, Vol.28,
pp.1187-1191.
152. Rajarajan K., Selvakumar S., Ginson P. Joseph, Vetha Potheher I., Gulam
Mohamed M. and Sagayaraj P., (2006b), ‘Growth, dielectric and
photoconducting studies of tetrathiourea mercury (II) tetrathiocyanato
zinc(II) NLO single crystals’, J. Crystal Growth, Vol. 286, pp. 470-475.
153. Rajendran K.V., Jayaraman D., Jayavel R. and Ramasamy P., (2003a)
‘Effect of pH on the growth and characterization of L-HFB single crystal’,
J. Crystal Growth, Vol. 254, pp. 461-468.
154. Rajendran K.V., Jayaraman D., Jayavel R. and Ramasamy P., (2003b),
‘Growth and characterization of non-linear optical crystal: L-histidinium
bromide,’ J. Crystal Growth, Vol. 225, pp. 361-368.
155. Rajesh N.P., Kannan V., Ashok M., Sivaji K., Santhana Raghavan P. and
Ramasamy P., (2004), ‘A new nonlinear optical semi-organic material: Cadmium thiourea acetate,’ J. Crystal Growth, Vol. 262, pp. 561–566.
Page 14
221
156. Rajesh N.P., Kannan V., Santhanaraghavan P., Ramasamy P. and Lan C.W., (2002), ‘Optical and microhardness studies of KDP crystals grown
from aqueous solutions with organic additives’, Materials Letters, Vol. 52, pp. 326-328.
157. Ramachandra Raja C., Vijayabhaskaran B., Vijayan N. and Paramasivam P., (2008), ‘Synthesis, growth and characterization analysis of níkel
mercury thiocyanate crystal (NMTC)’, Materials Letters, Vol. 62,
pp. 2737 – 2739.
158. Ramachandra Raja C., Paramasivam P. and Vijayan N., (2007), ‘Synthesis,
growth and characterization of a new nonlinear optical material: 4-
phenylpyridinium hydrogen squarate (4PHS)’, Spectrochimica Acta-Part A:
Molecular and Biomolecular Spectroscopy, (Article in Press).
159. Ramachandra Raja C., Gobinathan R. and Gnanam F.D. (1993), ‘Growth
and characterization of potassium pentaborate single crystals,’ Cryst. Res.
Tech., Vol. 28, pp. 453–456.
160. Ramachandran E., Raji P., Ramachandran K. and Natarajan S., (2006),
‘Photoacoustic study of the thermal and optical properties of hippuric acid’,
Crystal Research and Technology, Vol. 41, No. 5, pp. 481-486.
161. Ramasamy S., Sridhar B., Rama Krishnan V. and Rajaram R. K. (2001), ‘L-Argininium dinitrate’, Acta Cryst. E57, pp. 0872-0874.
162. Ramesh Babu R., Sethuraman K., Gopalakrishnan R. and Ramasamy P., (2006), ‘Growth of L-lysine monohydrochloride dihydrate bulk single
crystal by Sankaranarayanan—Ramasamy (SR) method’, J. Crystal Growth, Vol. 297, No. 2, pp. 356-360.
163. Ramesh Babu R., Vijayan N., Gunasekaran M., Gopalakrishnan R. and Ramasamy P. (2004), ‘Studies on organic single crystal: 2-amino-5-
chlorobenzophenone (2A-5CB)’, J. Crystal Growth, Vol. 265,
pp. 290-295.
164. Ramesh Kumar .G, Gokul Raj .S, Amit Saxena .S, Karnal.A.K, Thenneti
Raghavalu, Mohana R., (2008), ‘ Deuteration effects on structural, thermal,
linear and nonlinear properties of l-threonine single crystals’, Materials
Chemistry and Physics’, Vol. 108 , pp. 359–363.
165. Ramesh Kumar G., Gokul Raj S., Mohan R. and. Jayavel R., (2006),
‘Influence of Isoelectric pH on the growth linear and nonlinear optical and
dielectric properties of L-threonine single crystals’, Crystal Growth &
Design, Vol. 6, pp. 1308 -1310.
166. Ramesh Kumar G., Gokul Raj S., Thenneti Raghavalu, Mathivanan V.,
Kovendhan M., Bhagavannarayana G. and Mohan R., (2007),
‘Crystallization kinetics and high-resolution X-ray diffraction analysis on
Page 15
222
nonlinear optical L-threonine single crystals’, Materials Letters, (Article in press, Available online).
167. Ravindra H.J., Suresh Kumar M.R., Chitharanjan Rai and Dharmaprakash S.M., (2006), ‘A phase-matchable nonlinear optical material
N-(3-nitrophenyl) phthalimide: Synthesis, crystal growth and characterization’, J. Crystal Growth, Vol. 294, No. 2, pp. 318-322.
168. Reena Ittyachan and Sagayaraj P. (2002) ‘Growth and characterization of
L-arginine diphosphate crystal’, J. Crystal Growth, Vol. 243,
pp. 356-360.
169. Ren Q., Sun X. R., Wang X. Q., Zhang G. H., Yang X. D., Zhang F. J.,
Yang H. L., Chou Y. I. and Xu D., (2008), ‘ Short pulse Z-scan
investigations of optical nonlinearities of a novel organometallic complex:
[(C2H5)4N]2 [Cu(dmit)2] at 532 and 1064 nm’, Appl. Phys., A, vol. 90, pp.
685 – 688.
170. Rosker M.J. and Tang C.L., (1985), ‘Widely tunable optical parametric
oscillator using urea,’ J. Opt. Soc. Am. B., Vol. 2, pp. 691–696.
171. Sagayaraj P. and Selvakumar S., (2008), ‘Studies on the growth and
characterization of novel organometallic NLO crystal:
Cd(HCOO)2·2CS(NH2)2’, J. Mater. Science: Materials in Electronics, (Accepted, Article in press).
172. Sahaya Shajan X. Sivaraman K., Mahadevan C. and Chandrasekharan D., (1992), ‘Lattice variation and stability of NaCl-KCl mixed crystals grown
from aqueous solutions’, Cryst. Res. Tech., Vol.27, pp.K79-K82.
173. Sahaya Shajan X. and Mahadevan C., (2005), ‘Electrical conductivity
measurements on pure and impurity added calcium tartrate tetrahydrate single crystal’, Indian J. Phys, Vol. 79, pp. 425-427.
174. Sankar R., Muralidharan R., Raghavan C. M., Mohan Kumar R. and
Jayavel R., (2008a), ‘Synthesis, growth and characterization of nonlinear
optical material L-arginine iodate crystal’, Materials Letters, Vol. 62,
pp. 133-136.
175. Sankar R., Raghavan C.M., Mohan Kumar R. and Jayavel R.,
(2007), ‘Growth and characterization of a new semiorganic non-linear
optical thiosemicarbazide cadmium chloride monohydrate
(Cd(NH2NHCSNH2)Cl2·H2O) single crystals’, J. Crystal Growth, Vol. 305,
No. 1, pp.156-161.
176. Sankar R., Muralidharan R., Raghavan C. M. and Jayavel R., (2008b),
‘Structural, thermal, mechanical and optical properties of L-arginine
diiodate crystal: A new nonlinear optical material’, Materials Chemistry
and Physics, Vol. 107, pp. 51-56.
Page 16
223
177. Sasaki T., Yokotani A., Fujioka K., Yamanaka T. and Nakai S. (1989), ‘Synthesis and second harmonic generation of deuterated L-arginine
phosphate monohydrate crystal’, Technol., Report of Osaka Univ., Vol. 39, pp. 25-32.
178. Seely O., (1966), ‘The crystal structure analysis of L-arginine dihydriodide and L-tyrosine hydriodide’, Ph. D. thesis, University of Illinois, Urbana,
Illinois.
179. Selvakumar S., Packiam Julius J., Rajasekar S.A., Ramanand A. and
Sagayaraj P., (2005), ‘Microhardness, FTIR and transmission spectral
studies of Mg2+
and Zn2+
doped nonlinear optical BTCC single crystals’,
Materials Chemistry and Physics, Vol.89, pp. 244-248.
180. Selvakumar S., Rajarajan K., Ravi Kumar S.M., Vetha Potheher I., Prem
Anand D., Ambujam K., and Sagayaraj P., (2006a), ‘Growth and
characterization of pure and metal doped bis (thiourea) zinc chloride single
crystals’, Cryst. Res. Technol., Vol. 41, pp. 766-770.
181. Selvakumar S., Ravi Kumar M., Rajarajan K., Joseph Arul Pragasam A.,
Rajasekar S. A., Thamizharasan K., and Sagayaraj P., (2006b), ‘ Growth
and characterzation of a novel organometallic nonlinear optical crystal : Bis
(thiourea) cadmium formate’, Crystal Growth & Design, Vol. 6, pp. 2607 –2610.
182. Selvakumar S., Ravi Kumar S.M., Ginson P. Joseph, Rajarajan K., Madhavan J., Rajasekar S.A. and Sagayaraj P., (2007), ‘Growth and
characterization of pure and doped bis(thiourea) cadmium acetate single crystals’, Materials Chemistry and Physics, Vol. 103, No. 1, pp. 153-157.
183. Selvaraju K., Valluvan R., Kirubavathi K. and Kumararaman S., (2007a), ‘L-Cystine hydrochloride: A novel semi-organic nonlinear optical material
for optical devices’, Optics Communications, Vol. 269, pp. 230–234.
184. Selvaraju K., Valluvan R., Kirubavathi K. and Kumararaman S., (2007b),
‘Investigation on the nucleation kinetics of L-arginine acetate single
crystals’, Materials Letters, Vol. 61, No. 14-15, pp. 3041-3044.
185. Selvaraju K., Valluvan R. and Kumararaman S., (2007), ‘A new metal-
organic crystal: Potassium thiourea chloride’, Materials Letters, Vol.61,
No. 3, pp. 751-753.
186. Selvaraju K., Valluvan R. and Kumararaman S., (2006), ‘Growth and
characterization of a new metal-organic crystal: Potassium thiourea iodide’,
Materials Letters, Vol.60, No. 25-26, pp. 3130-3132.
187. Sethuraman K., Ramesh Babu R., Vijayan N., Gopalakrishnan R. and
Ramasamy P., (2006), ‘Synthesis, growth of organic nonlinear optical
crystal: Semicarbazone of 2-amino-5-chloro-benzophenone (S2A5CB) and its characterization’, J. Crystal Growth, Vol.290, No. 2, pp.539-543.
Page 17
224
188. Sethuraman K., Ramesh babu R., Vijayan N., Gopalakrishnan R. and Ramasamy P., (2007), ‘Growth and characterization of organic nonlinear
optical crystal of 1-chloro-2,4-dinitrobenzene (CDNB)’, Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, Vol. 66,
pp. 707-711.
189. Shaokang Gao., Weijun Chen., Guimei Wang and Jianzhong Chen, (2006),
‘Synthesis, crystal growth and characterization of organic NLO material:
N-(4-nitrophenyl)-N-methyl-2-aminoacetonitrile (NPAN)’, J. Crystal
Growth, Vol. 297, No.2, pp.361-365.
190. Sharada G. Prabhu, and Mohan Rao, (2000), ‘Growth and characterization
of a promising nonlinear optical organic crystal,’ J. Crystal Growth, Vol.
201, pp. 824–827.
191. Shaw M.C., (1973), ‘The Science of Hardness Testing and its Research
Application’, Ed. By Westbrook J.H. and Condrad H, ASM. Ohio, pp. 1-
11.
192. Siddheswaran R., Sankar R., Rathnakumari M., Jayavel R., Murugakoothan
P. and Sureshkumar P., (2006), ‘Growth and characterization of tris
allylthiourea mercuric chloride crystals’, Cryst. Res. Technol., Vol. 41,
No. 8, pp. 771 – 774.
193. Smith R.L. and Sandland G.E. (1923), ‘An accurate method of determining
the hardness of metals with reference to those of a high degree of hardness’, Proc. Inst. Mech. Engrs., Vol. 1, pp. 623-641.
194. Smyth C.P., (1965), ‘Dielectric Behaviour and Structure’, MiGraw Hill, New York.
195. Srinivasan K., Sankaranarayanan K., Tangavelu S. and Ramasamy P., (2000), ‘Influence of organic solvents on the habit of NMBA (4-nitro-4-
methyl benzylidene aniline) crystals’, J. Crystal Growth, Vol.212,
pp.246-254.
196. Srinivasan P., Gunasekaran M., Kanagasekaran T., Gopalakrishnan R. and
Ramasamy P., (2006b), ‘2,4,6-trinitrophenol (TNP): An organic material
for nonlinear optical (NLO) applications’, J. Crystal Growth Vol. 239, pp
639-646.
197. Srinivasan P., Kanagasekaran T., Gopalakrishnan R., Bhagavannarayana G.
and Ramasamy P., (2006a), ‘Studies on the growth and characterization of
L-asparaginium picrate (LASP)-A novel nonlinear optical crystal’, Crystal
Growth & Design, Vol. 6, pp. 1663 -1670.
198. Sudeshna Mukerji, and Tanusree Kar, (1998), ‘Structural, thermal and
spectroscopic investigation of nonlinear optical crystal L-arginine
hydrobromide monohydrate,’ Materials Research Bulletin, Vol. 23, pp. 619–626.
Page 18
225
199. Sudeshna Mukerji, and Tanusree Kar, (1999), ‘Etch pit study of different crystallographic faces of L-arginine hydrobromide monohydrate (LAHBr)
in alcohols,’ J. Crystal Growth, Vol. 200, pp. 543–549.
200. Sudeshna Mukerji, and Tanusree Kar (2000), ‘Knoop microhardness
anisotropy and Young’s modulus of L-arginine hydrochoride monohydrate and L-arginine hydrobromide monohydrate,’ Materials Research Bulletin,
Vol. 35, pp. 711–717.
201. Sun H. Q., Yuan D., Hou X., Wang X. Q., Liu L., Zhang D., Han Y.,
(2007c), ‘A novel metal-organic coordination complex crystal:
tris allylthiourea zinc bromide (ATZB) as a nonlinear optical material’,
Cryst. Res. Technol., Vol. 42, pp. 65-68.
202. Sun H.Q., Yuan D.R., Wang X.Q., Cheng X.F., Gong C.R., Zhou M.,Xu
H.Y., Wei X.C., Luan C.N., Pan D.Y., Li Z.F., Shi X.Z. (2005), ‘A novel
metal- organic coordination complex crystal : tri-allyl thiourea zinc
chloride (ATZC)’, Cryst. Res. Technol., Vol. 40, pp. 882-886.
203. Sun Z. H., Xu D., Wang X. Q., Liu X. J., Yu G., Zhang G. H., Zhu L.Y.,
Fan H. L., (2007b), ‘Growth and characterization of the nonlinear optical
crystal: L-arginine trifluoroacetate’, Crystal Research and Technology,
Vol.42, No. 8, pp. 812-816.
204. Sun Z.H., Yu W.T., Cheng X.F., Wang X.Q., Zhang G.H., Yu G., Fan H.L.
and Xu D., (2007a), ‘Synthesis, crystal structure and vibrational spectroscopy of a nonlinear optical crystal: L-arginine maleate dihydrate’,
Optical Materials, (Article in Press, available online).
205. Suresh.C.G. and Vijayan M., (1983), Int. J. Pept. Protein Res., Vol. 21, pp.
223.
206. Suresh Kumar B. and Rajendra Babu K., (2007), ‘Growth and
characterization of doped hippuric acid crystals for NLO devices’, Crystal
Research and Technology, Vol. 42, No. 6, pp. 607-612.
207. Suriya Kumar K., Thenneti Raghavalu, Mathivanan V., Kovendhan M.,
Sivakumar B., Ramesh Kumar G., Gokul Raj S. and Mohan R., (2008),
‘Structural, optical, spectral and thermal studies of nonlinear optical pure
and deutrated L-alanine single crystals’, J. Crystal Growth, Vol. 310, pp.
1182-1186.
208. Sweta Moitra and Tanusree Kar, (2008),’Growth, optical and thermal
characterizationof bis(thiourea)zinc chloride single crystals’, Optical
Materials (Article in Press, Available online).
209. Tabor D., (1951), ‘The Hardness of Materials’, Oxford University Press,
Oxford.
Page 19
226
210. Takatomo Sasaki, and Atsushi Yokotani, (1990), ‘Growth of large KDP crystal for laser fusion experiments,’ J. Crystal Growth, Vol. 99, pp. 820–
826.
211. Tanusri Pal., Tanusree Kar., Gabriele Bocelli and Lara Rigi., (2003),
‘Synthesis, growth, and characterization of L-arginine acetate crystal: A potential NLO material, Crystal Growth & Design, Vol. 3, pp.13 -16.
212. Tanusri Pal and Tanusree Kar, (2003), ‘Vickers microhardness studies of
L-arginine halide mixed crystals’, Materials Science and Engineering, Vol.
354, pp. 331-336.
213. Tanusri Pal and Tanusree Kar, (2005) ‘Optical, mechanical and thermal
studies of nonlinear optical crystal L-arginine acetate’, Materials Chemistry
and Physics Vol.91, pp.343-347.
214. Tanusri Pal, Kar T., Wang Q.X., Zhou G.Y., Wang D., Cheng X.F. and
Yang Z.H., (2002), ‘Growth and characterization of nonlinear optical
material LAHClBr – a new member of L-arginine halide family,’ J. Crystal
Growth, Vol. 235, pp. 523–528.
215. Tapati Mallik and Tanusree Kar, (2005a), ‘Optical, thermal and structural
characterization of an NLO crystal: L-arginine perchlorate’, J.Crystal
Growth, Vol. 274, pp.251-255.
216. Tapati Mallik and Tanusree Kar, (2005b) ‘Growth and characterization of
non linear optical L-arginine dihydrate single crystals’, J. Crystal growth, Vol. 285, pp. 178-182.
217. Tapati Mallik and Tanusree Kar, Gabriele Bocelli and Amos Musatti, (2005), ‘Synthesis, crystal structure and solubility of C6H14N4O2, C4H4O4,
2H2O’, Science and Technology of Advanced Materials, Vol. 6, pp.508-512.
218. Terzyan S.S., Karapetyan H.A., Sukiasyan R.B. and Petrosyan A.M.,
(2004), ‘L-Arginine nitrates,’ Journal of Molecular Structure, Vol. 687,
pp. 111–117.
219. Thomas Joseph Prakash J. and Kumararaman S. (2008a), ‘Growth and
characterization of L-proline cadmium chloride monohydrate single
crystals’, Materials Letters, Vol. 62, pp.4097-4099.
220. Thomas Joseph Prakash J. and Kumararaman S., (2008b), ‘Growth and
characterization of L-asparagine thiourea monohydrate (LATM): A
nonlinear optical single crystal’, Materials Letters, Vol.62, pp.4003-4005.
221. Unver H., Karakas A., Elmali A. and Durlu T. N., (2005), ‘The
investigation of nonlinear optical properties of N-(3-fluorophenyl)
naphthaldimine’, Journal of Molecular Structure, Vol. 737, pp. 131-137.
Page 20
227
222. Vaidhyanathan R, Srinivasan Natarajan and Rao C.N.R., (2004), ‘A chiral mixed carboxylate, [Nd4(H2O)2(OOC(CH2)3COO)4(C2O4)2] exhibiting
NLO properties,’ J. Solid State Chemistry, Vol. 177, pp. 1444–1448.
223. Vasantha K. and Dhanuskodi S. (2004), ‘Single crystal growth and
characterization of phasematchable L-arginine maleate: a potential nonlinear optical material’, J. Crystal Growth, Vol. 269, pp. 333–341.
224. Velsko S.P. (1990), Laser Program Annual Report, Lawrence UCRL-JC
105000 (Lawrence Livermore National Laboratory, Livermore, California).
225. Vijayan N., Bhagavannarayana G., Budakoti G.C., Kumar B.,
Upadhyaya V. and Subhasis Das, (2008), ’Optical, dielectric and surface
studies on solution grown benzimidazole single crystals’, Materials Letters
Vol. 62, pp. 1252–1254.
226. Vijayan N., Ramesh Babu R., Gopalakrishnan R., Ramasamy P. and
Harrison W.T.A., (2004), ‘Growth and characterization of benzimidazole
single crystals: a nonlinear optical material,’ J. Crystal Growth, Vol. 262,
pp. 490–498.
227. Vijayan N., Ramesh Babu R., Gunasekaran M., Gopalakrishnan K.,
Kumaresan R., Ramasamy P. and Lan C.W., (2003), ‘Studies on the growth
and characterization of p-hydroxyacetophenone single crystals’, J. Crystal Growth, Vol.249, pp.309-315.
228. Vimalan M., Ramanand A. and Sagayaraj P., (2007), ‘Synthesis, growth and characterization of L-alaninium oxalate - a novel organic NLO crystal’,
Crystal Research and Technology, Vol 42, pp 1091-1096.
229. Vincent Crasta, Ravindrachary V., Bhajantri R.F and Richard Gonsalves,
(2004), ‘Growth and characterization of an organic NLO crystal: 1-(4-methylphenyl)-3(4-methoxyphenyl)-2-propen-1-one,’ J. Crystal
Growth, Vol. 267, pp. 129–133.
230. Wang X. Q., Xu D., Liu M. J., Hou X. Q., Cheng X. F., Lu M. K.,
Yuan D. R. and Huang J., (2004), ‘Spectroscopic and thermal properties of
FeHg(SCN)4’, Thermochimica Acta, Vol. 414, pp. 53-58.
231. Warren L.F., (1990), ‘New development in semiorganic nonlinear optical
crystals’, in Electronic Materials: Our Future, Proceedings of the Fourth
International SAMPE Electronics Conference, Ed. Allred R.E., Martinez
R.J. and Wischmann W.D. (Society for the Advancement of Material and
Process Engineeing, Covina, Ca., 1990), Vol.4, pp.388-396.
232. Westbrook J.H and Conrad H. (1971), ‘The Science of Hardness testing
and its Research Applications’, American Society for Metals, Ohio.
233. Wilcox W.R., (1983), ‘Influence of convection on the growth of crystals
from solution’, J. Crystal Growth, Vol. 65, pp. 133-142.
Page 21
228
234. Wyatt O.H. and Dew Hughes D., (1974), ‘Metals, Ceramics and Polymers’, Cambridge University Press, Cambridge.
235. Xiaojing Liu, Zeyan Wang, Gauangui Zhang, Guangwai Yu, Xinqiang Wang and Dong Xu, (2008), ‘Nucleation growth mechanism and defects of
nonlinear optical crystals of L-Arg CF3COOH’, Materials Letters, Vol. 62, pp.1986-1988.
236. Xin Yuan., Guangqiu Shen., Xiaoqing Wang., Dezhong Shen., Guiling
Wang and Zuyan Xu, (2006), ‘Growth and characterization of large CLBO
crystals’, J. Crystal Growth, Vol. 293, No.1, pp. 97-101.
237. Xing G., Jiang M., Sao Z., and Xu D. (1987), ‘Bis(thiourea)cadmium
chloride (BTCC): A novel nonlinear optical crystal of organometallic
complex’, Chin. J. Lasers, Vol. 14, pp. 302-308.
238. Xu D., Wang X.Q., Yu W.T., Xu S.X. and Zhang G.H. (2003), ‘Crystal
structure and characterization of a novel organic nonlinear optical crystal:
L-arginine trifluoroacetate’, J. Crystal Growth, Vol. 253, pp. 481-487.
239. Xu D., Jiang M. and Tan Z. (1983), ‘A new phase matchable nonlinear
optical crystal L-arginine phosphate monohydrate’, Acta Chem. Sinica,
Vol. 41, pp. 570-573.
240. Xue D., Betzler K. and Hesse H., (2001), ‘Induced Li-site vacancies and non-linear optical behaviour of doped lithium niobate crystals’, Optical
Materials, Vol. 16, pp. 381–387.
241. Xun Sun, Xinguang Xu, Zhangshou Gao, Youjun Fu, Shenglai Wang and
Hong Zeng, (2000), ‘Effect of EDTA on the light scatter in KDP crystal’, J. Crystal Growth, Vol. 217, pp. 404 - 409.
242. Yokotani A., Sasaki T., Fujioka K., Nakai S. and Yamanaka C., (1990), ‘Growth and characterization of deuterated L-arginine phosphate
monohydrate: A new nonlinear crystal for efficient harmonic generation of
fusion experiment lasers’, J. Crystal Growth, Vol. 99, pp. 815-819.
243. Yokotani A., Sasaki T., Yoshida K. and Nakai S., (1989), ‘Extremely high
damage threshold of a new nonlinear crystal L-arginine phosphate and its
deuterium compound.’ J. Appl. Phys. Letters, Vol. 55, pp. 2692-2693.
244. Yun Zhang., Yonggang Wang., Yunxia Che and Jimin Zheng., (2007),
‘Growth and properties of two new organic nonlinear optical crystals:
Hydroxyethylammonium-l-tartrate monohydrate and hydroxyethyl
ammonium-d-tartrate monohydrate’, J. Crystal Growth, Volume 299,
No. 1, pp.120-124.
245. Zhang J.X., Wang J.Y., Hu X.B., Zang H.J., Wang X.X., Liu X.G. and
Jiang M.H., (2005), ‘Growth, defects, conductivity and thermal properties
Page 22
229
of Ga: KTiPO4, Ce: KTiPO4 crystals’, J. Crystal Growth, Vol. 275, pp. e2113-e2116.
246. Zhoubin Lin., Guofu Wang and Lizhen Zhang., (2007), ‘Growth of a new nonlinear optical crystal YCa9(VO4)7’, J. Crystal growth, Vol. 304, No.1,
pp.233-235.