Embed Size (px)
Citation preview
176
REFERENCES
1. Richard P. Feynman (1960) A lecture in engineering science. In California
Institute of Technology February edn. Also usually available at various moving
sites on the Internet.
2. N. Taniguchi (1974) On the basic concept of nanotechnology, ICPE
3. Michael Wilson, Kamali Kannangara, Geoff Smith, Michelle Simmons and
Burkhard Raguse (2004) Nanotechnology Basic Science and Emerging
Technologies [Chapman & Hall / CRC, A CRC press company, BocaRaton,
London, New York, Washington D.C.].
4. K. Byrappa, S. Ohara and T. Adschiri (2008) Advanced Drug Delivery Reviews
60, 299- 327.
5. Knut H. Heller, C.H – Mehmud and W.H. Tumbull (2008) The University
Textbook of Nanotechnology, complying to the syllabi of most international
universities (2 volume set) [Dominant Publishers and Distributors, New Delhi].
6. K Eric Drexler (1990) Engines of Creation [Fourth Estate, Londan] P. 296
7. B. Viswanathan (2010) Nanomaterials [Narosa Publishng House Pvt. Ltd., New
Delhi, India].
8. M.A. Shah and Tokeer Ahmad (2010) Principles of Nanoscience and
Nanotechnology [Narosa Publishing House Pvt. Ltd., New Delhi].
9. Burcu Girginer, Giancarlo Galli, Emo Chiellini and Niyazi Bicak (2009)
International Journal of Hydrogen Energy 34, 1176-1184.
177
10. Vineet Singh and Pratima Chauhan (2009) Journal of Physics and Chemistry of
Solids 70, 1074-1079.
11. S. Ghosh, A. Mukherjee, Hyunsoo Kim and Chongmu Lee (2003) Materials
Chemistry and Physics 78, 726-732.
12. H.S. Nalwa (Ed.) (2004) Encyclopedia of Nanoscience and Nanotechnology
[American Scientific Publishers, New York].
13. T. Chattopadhyay, H.G.Von Schnering and W.A Grosshans (1986) Physica B
139 & 140, 305 -307.
14. L. Wang, L. Chen, T. Luo, K. Bao and Y. Qian (2006) Solid State
Communications 138, 72-75.
15. S.M. Size (1981) Physics of Semiconductor Devices [John Wiley & sons, New
York].
16. L.E. Brus (1984) Journal of Chemical Physics. 80, 4403-4409.
17. U. Pal, R. Silva–Gonzalez, G. Martines–Montes, M. Gracia-Jimenez, M.N. Videl
and Sh. Torres (1997) Thin Solid Films 305, 345 – 350.
18. Y.K. Jun and H.B. Im (1988) Journal of Electrochemical Society 135, 1658-
1661.
19. J.L. Verble and F.M. Humphrey (1974) Solid State Communications 15, 1693 –
1697.
20. T. Chattopadhyay, Th.Bruckel and P.Burlet (1992) Physica B 180 & 181, 71-72.
21. G. Van Kalkeren, R. Block and L. Jansen (1977) Physica B 85, 259 – 269.
178
22. H.M. Pathan and C.D. Lokhande (2004) Bulletin of Materials Science 27, 85-
111.
23. A.Ennaoui, S. Fiechter, Ch. Pettenkofer, N. Alonso – Vante, K. Bijker, M.
Bronold, Ch. Hopfner and H. Tributsch (1993) Solar Energy Materials and Solar
Cells 29, 289-370.
24. L.D. Ahuja, D. Rajeshwar and K.C. Nagpal (1988) Journal of Colloid and
Interface Science 123(2), 380-389.
25. T.A. Pecoraso and R.R Chianelli (1981) Journal of Catalysis 67, 430-445.
26. Suzanne Harris and R.R. Chianelli (1984) Journal of Catalysis 86, 400-412.
27. Suzanne Harris and R.R. Chianelli (1986) Journal of Catalysis 98, 17-31.
28. H. Van der Heide, R. Hemmel, C.F. Van Bruggen, and C. Hass (1980) Journal
of Solid State Chemistry 33, 17-25.
29. From Website Nanocomposite, Wikipedia free Encyclopedia.
30. N.K. Pandey, A. Roy, K. Tiwari, A. Rai, P. Awasthi and A. Mishra (2010)
Proceedings of the International Conference on Nanoscience and
Nanotechnology (ICONN) SRM University, Chennai, 228-229.
31. N.K, Pandey, Rai Amit, Tiwari Karunesh, Roy Akash, Mishra Aradhana and
Awasthi Prianka (2010) Proceedings of the International Conference on
Nanoscience and Nanotechnology (ICONN) SRM University, Chennai, 147-148.
32. Young – Wook Jun, Yoon – Young Jung and Jinwoo Cheon (2002) Journal of
the American Chemical Society 124, (4), 615-619.
179
33. Jun Ma, Guo’ an Tai and Wanlin Guo (2010) Ultrasonics Sonochemistry 17,
534-540.
34. S. Mohanlal (1979) Ph.D. Thesis [Madurai Kamaraj Unversity, Madurai].
35. R.S.S Saravanan and C. Mahadevan (2004) Paper presented in the XXXIII.
National Seminar on Crystallography held at National Chemical Laboratory,
Pune.
36. S. Meenakshi Sundar, C.K. Mahadevan and P.Ramanathan (2007) Materials and
Manufacturing Processes 22, 400-403.
37. M.S. Gajanand, M. Priya and C.K. Mahadevan (2007) Proceedings of the 2nd
International Conference on Emerging Adaptive Systems and Technologies P.
143-147.
38. G. Deepa and C.K. Mahadevan (2010) Proceedings of the KAAS (KAAS,
Nagercoil) P. Physics 23-25.
39. M. Meena, M. Priya and C.K. Mahadevann (2007) Proceedings of the 2nd
International Conference on Emerging Adaptive systems and Technologies
P.157-161.
40. G. Janita Christobel, M. Vimalan and C.K. Mahadevan (2009) International Journal of
Materials Sciene 4, 613-620.
41. K.U. Madhu, T.H. Freeda and C.K. Mahadevan (2009) International Journal of
Materials Science 4, 673-684.
42. K. Usha and C.K. Mahadevan (2009) Proceedings of the National Workshop on
Quantum Confined Systems and Nanoscale Devices, P. 50-55.
180
43. M. Vimalan and C.K. Mahadevan (2010) Archives of Applied Sciences Research
2(2), 337-348.
44. M. Vimalan, T. Rajesh Kumar, I Vetha Potheher, M. Gulam Mohamed and C.K.
Mahadevan (2010) Archives of Applied Sciences Research 2(3), 68-73.
45. R.S.S. Saravanan, D. Pukazhaselvan and C.K. Mahadevan (2011) Philosophical
Magazine 91, 389-403.
46. R.S.S. Saravanan, D. Pukazhaselvan and C.K. Mahadevan (2011) Journal of
Alloys and Compounds 509, 4065-4072.
47. C.K. Mahadevan and M. Meena (2010) Paper Presented in the International
Conference on Materials for Advanced Technologies (ICMAT 2011) held at
Suntec, Singapore.
48. M. Priya, R.S.S Saravanan and C.K. Mahadevan (2011) Paper presented in the
International Conference on Materials for Advanced Technologies (ICMAT
2011) held at Suntec, Singapore.
49. X. Jiang, Y. Xie, J. Lu, W.He, L.Zhu and Y.Qian (2000) Journal of Materials
Chemistry 10, 2193-2196.
50. S. Gorai, D. Ganguli and S. Chaudhai (2005) Crystal Growth and Design. 5,
875-877.
51. I.Puapitasari, T.P. Gujar, K. Jung and O.Too (2007) Materials Science and
Engineering B 140, 199-202.
52. P.Roy and S.K. Srivastava (2007) Materials Letters 61, 1693-1697.
181
53. C.K. Mahadevan (2011) Paper Presented in the International Conference on
Materials for Advanced Technologies (ICMAT 2011) held at Suntec, Singapore.
54. R. Sunitha and C.K. Mahadevan (2010) Paper presented in II National
Conference on Advanced Materials – Processing, Characterization and
Applications held at PSN College of Engineering and Technology,
Melathediyoor, Tirunelveli, Tamil Nadu, India.
55. R. Sunitha, D. Shiney Manoj and C.K. Mahadevan (2010) Paper presented in
UGC Sponsored National Conference on Recent and Emerging Developments in
Physics held at Womens Christian College, Nagercoil, Tamilnadu, India.
56. R. Sunitha and C.K. Mahadevan (2010) Paper presented in Tenth Tamil
Conference held at Manonmaniam Sundaranar University, Tirunelveli, India.
57. D.Shiney Manoj and C.K. Mahadevan (2011) Proceedings of the KAAS (KAAS,
Nagercoil) P. Physics 48-55.
58. G.J. Exarhos and E.D. Xhou (2007) Thin Solid Films 515, 7025-7052.
59. E. Fortunato, D. Ginly, H. Hosmo and D.C. Painer (2007) Materials Research
Bulletin 32, 242-247.
60. Mohammad H.Entezari and Narjew Ghows (2011) Ultrasonics Sonochemistry
18, 127-134.
61. Subhajit Biswas, Soumitra Kar and Subhadra Chaudhuri (2007) Materials
Science and Engineering B 142, 69-77.
62. N.R. Pawaskar, S.D Sathaye, M.M Bhadhade and K.R Patil (2002) Materials
Research Bulletin 37 (9), 1539 – 1546.
182
63. Hua Tong and Ying – Jie Zhu (2006) Nanotechnology 17, 845 – 851.
64. Subhajit Biswas, Soumitra Kar and Subhadra Chaudhuri (2007) Journal of
Crystal Growth 299, 94-102.
65. R.L. Gunshor and A.V Nurmikko (1997) Semiconductors and Semimetals
[Academic Press, New York] P. 44.
66. Brian Ray (1969) II-VI Compounds [Pergammon Press, NewYork].
67. Sanjeev Kumar and Ramesh Chandra (2005) Optical Materials 27, 1346 – 1349.
68. Yang Yang, Huilan Chen and Ximao Bao (2003) Journal of Crystal Growth 252,
251-256.
69. Bing Liu, G.Q. Xu, L.M. Gan, C.H. Chew, W.S.Li and Z.X .Shen, (2001)
Journal of Applied Physics 89 (2), 1059-1063.
70. Titipun Thongtem, Anukom Phurangrat and Somchai Thongtem(2009) Ceramics
International 35, 2817 – 2822.
71. C. Murray, D. J. Norris and M. G. Bawendi (1993) Journal of the American Chemical
Society 115, 8706-8715.
72. P.S. Khiew, S. Radiman, N.M. Huany and Md. Soot Ahmad (2003) Journal of
Crystal Growth 254, 235-243.
73. M. Tata, S. Banerjee, V.T. John, Y. Waguespack, G.L and M. Phersond (1997)
Colloid Surfaces A 127, 39-46.
74. H. P. Li, B. Liu, C. H. Kam, Y. L Lam, W. X. Que , L. M. Gan, C. H. Chew
and G. Q. Xu (2000) Optical Materials 14, 321-327.
183
75. M.A. Chamarro, V. Voliotis, R. Grousson, P. Lavallard, T. Gocoin, G. Counio,
J.P. Boilot and R. Cases (1996) Journal of Crystal Growth 159, 853-856.
76. B. Liu, G.Q. Xu, L.M. Gan and C.H. Chew (2001) Journal of Applied Physics
89, 1059 – 1063.
77. U. Yu, T. Isobe and M. Senna (1995) Materials Research Bulletin 30, 975-980.
78. A. Henglein, Anilkumar, E. Janata and H. Weller (1986) Chemical Physics
Letters 132, 133-136.
79. D. Chen, K. Tang, G. Shen, J. Sheng, Z. Fang, X. Liu, H. Zheng and Y. Quian
(2003) Materials Chemistry and Physics 82, 206-209.
80. C. Feldmann and C. Metzmachen (2001) Journal of Materials Chemistry 11, 2603-
2606.
81. M. Pattabi and J. Uchil (2000) Solar Energy Materials & Solar Cells 63, 309-
314.
82. S.K. Mandal, A.B. Maity, J. Dutta, R. Pal, S. Chaudhuri and A.K. Pal (1997)
Physics Status Solidi (A) 163, 433-443.
83. A. Othamani, J. C. Planet, E. Bernstein, F. Paille, C. Bovier, J. Dumas and C.
Mai (1995) Journal of Materials Science 30, 2425-2429.
84. L. Saviot, B. Champagnon, E. Duval and A.I Ekimov (1998) Journal Crystal
Growth 184/185, 370-373.
85. B.S. Zou, R.B. Little, J.P. Wang and M.A. EI-Sayed (1999) International
Journal of Quantum Chemistry 72, 439-450.
184
86. N. Romeo, A. Bosio, R. Tedeschi, A. Romeo and V. Canevani (1999) Solar
Energy Materials and Solar Cells 58, 209-218.
87. L. Xu. L. Wang, X. Huang, J. Zhu, H. Chen and K. Chen (2000) Physica E 8,
129-133.
88. M.V. Artemyev, V. Sperling and U. Woggen (1998) Journal of Crystal Growth
184/185, 374-376.
89. M.V. Artemyev, V. Sperling and U. Woggen (1997) Journal of Applied Physics
81, 6975 – 6977.
90. M. Abdulkhadar and B. Thomas (1995) Physica Status Solidi A 150, 755-762.
91. B. Thomas and M. Abdulkhadar (1995) Solid State Communications 94, 205-
210.
92. P. Lianos and J.K. Thomas (1986) Chemical Physics Letters 125, 299-302.
93. J. Cizeron and M.P. Pileni (1997) Journal of Physical Chemistry B 101, 8887-
8891.
94. Y. Matsuzawa and J. Suzuki (2001) Journal of Chemical Engineering in Japan
34, 700-702.
95. K. B. Jinesh, C. S. Kartha and K. P. Vijayakumar (2002) Applied Surface
Science 195, 263-269.
96. K.L. Narayanan, K.P. Vijakumar, K.G. M. Nair, N.S. Thampi and R. Krishnan
(1997) Journal of Materials Science. 32, 4837-4840.
97. J. Zhu, M. Zhou, J. Xu and X. Liao (2001) Materials Letters 47, 25-29.
185
98. R. Rossett, J.L. Ellison, J.M. Gibson and L.E. Brus (1984) Journal of Chemical
Physics 80, 4464-4469.
99. P. Gupta, R. Pal, D. Bhattacharyya, S. Chaudhuri and A.K. Pal (1995) Physica
Status Solidi (A) 148, 459-467.
100. B. A. Korgel and H. G. Monbouquette (1996) Journal of Physical Chemistry
100, 346-351.
101. S.M. Liu, F.Q. Liu, H.Q. Guo, Z.H. Zhang and Z.G. Wang (2000) Solid State
Communications 115, 615-618.
102. Ningzhong Bao, Liming Shen, Xiaohua Lu, Kazumichi Yanagisawa, Xin Feng
(2003) Chemical Physics Letter 377, 119-124.
103. 103. A.V. Murugan, R.S. Sonawane, B.B. Kale, S.K. Apte and A.V. Kulkarni
(2001) Materials Chemistry and Physics 71, 98-102.
104. 104. X. Mo, C.Y. Wang, M. You, Y.N. Zhu, Z.Y. Chen and Y. Hu (2001)
Materials Research Bulletin 36, 2277-2282.
105. 105 J. Fan, T. Gao, G. Meng, Y. Wang, X. Liu and L. Zhang (2002) Materials
Letters 57, 656-659.
106. J.H. Lee, W.C. Song, J.S. Yi and Y.S. Yoo (2003) Solar Energy Materials &
Solar Cells 75, 227-234.
107. B. Bhattacharjee, S.K. Mandal, K. Chakrabarti, D. Ganguli and S. Chaudhuri
(2002) Journal of Physics D: Applied Physics 35 2636-2642.
186
108. S.G. Lu, Y.J. Yu, C.L. Mak, K.H. Wong, L.Y. Zhang and X. Yao (2003)
Microelectronic Engineering 66, 171-179.
109. P. Dutta and J.H. Fendler (2002) Journal of Colloid and Interface Science 247, 47-53.
110. P. Taneja, P. Vasa and P. Ayyub (2002) Materials Letters 54, 343-347.
111. H. Zhao, W. Jia and E.P. Douglas (2003) Journal of Materials Science Letters
22, 205-207.
112. P. Kumar, A. Misra, D. Kumar, N. Dhama, T.P. Sharma and P.N. Dixit (2004)
Optical Materials 27, 261-264.
113. J.H. Lee, W.C. Song, J.S. Yi, K.J. Yang, W.D. IIan and J. Hwang (2003) Thin
Solid films 431/432, 349-353.
114. V.P. Singh, R.S. Singh, G.W. Thompson, V. Jayaraman, S. Sanagapalli and V.K.
Rangari (2004) Solar Energy Materials & Solar Cells 81, 293-303.
115. Xun Fu. Lei Chen, Jing Wang, Yusheng Lin, Huaqang Shi and Zhengshui Hu
(2004) Colloids and Surfaces A: Physicochemical Engineering Aspects 233, 189-
192.
116. P. Vasa (2004) Physics Teacher 46, 61-65.
117. P. Raji, C. Sanjeeviraja and K. Ramachandran (2004) Crystal Research and
Technology 39, 617-622.
118. H. Tang, M. Yan, H. Zhang, M. Xia and D. Yang (2005) Materials Letters 59,
1024-1027.
119. H. Zhang, D. Yang, X. Ma and D. Que (2005) Materials Letters 59, 3037-3041.
187
120. K.S. Babu, T.R. Kumar, P.Haridoss and C. Vijayan (2005) Talanta 66, 160-165.
121. Z. Sedaghot, N. Taghavinia and M. Marandi (2006) Nanotechnology 17, 3812-
3816.
122. M. Pattabi and B.S. Amma (2006) Solar Enegry Materials & Solar Cells 90,
2377-2383.
123. J. Hiie, T. Dedova, V. Valdna and K. Muska (2006) Thin Solid Films 511/512,
443-447.
124. K.R. Murali, S. Kumaresan and J.J. Prince (2007) Materials Science and
Semiconductor Processes 10, 56-60.
125. M.L. Wang, C.H. Wang and W. Wang (2007) Materials Chemistry and Physics
104, 162-165.
126. R.M. Ma, X.L. Wei, L. Dai, H.B. Huo and G.G. Qin (2007) Nanotechnology 18,
205605 (5pp).
127. G. Hota, S.B. Idage and K.C. Khilar (2007) Colloids and Surfaces A:
Physicochemical Engineering Aspects 293, 5-12.
128. F. Iacomi, M. Purica, E. Budianu, P. Prepelita and D. Macovei (2007) Thin Sold
Films 515, 6080-6084.
129. D. Yang, S. Xu, Q. Chen and W. Wang (2007) Colloids and Surfaces
A:Physicochemical Engineering Aspects 299, 153-159.
130. S.V. Borse, S.D. Chavhan and R. Sharma (2007) Journal of Alloys and
Compounds 436, 407-141.
188
131. Akyuz, S. Kose, F. Atay and V. Bilgin (2007) Materials Science Science and
Semiconductor Processes 10, 103-111.
132. S.D. Chavhan, S. Senthilarasu and S.H. Lee (2008) Annealing Applied Surface
Science 254, 4539-4545.
133. S.K.Gautam, Dhananjai Pandey, S.N.Upadhyay Shahid Anwar and N.P
Lalla(2008) Solid State Communication 146, 425-427.
134. N.M. Osipyonok, A.F. Singaevsky, Yu. V. Noskov, Yu. P. Piryatinski, P.S.
Smertenko, O.P. Dimitriev and A.A.Pud (2008) Materials Science and
Engineering B, 147, 254-257.
135. Qing Xia, Xing Chen, Kai Zhao and Jinhuai Liu (2008) Materials Chemistry and
Physics 111 98-105.
136. C. Unni, Daizy philip and K.G. Gopchandran (2008) Spectrochimica Acta - Part
A 71, 1402-1407.
137. Andrea Pucci, Massimiliano Boccia, Fernando Galembeck, Carlos Alberto de
Paula Leite, Nicola Tirelli and Giacomo Ruggeri (2008) Reactive & Functional
Polymers 68, 1144-1151.
138. Thelma Serrano, Idalia Gomez, Rafael Colas and Jose Cavazos (2009) Colloids
and Surfaces A : Physicochemical Engineering Aspects 338, 20-24.
139. Jung –chul Lee, Wonjoo Lee, Sung-Hwan Han, Tae Geun Kim and Yun-Mo
Sung (2009) Electrochemistry Communications 11 231-234.
140. Shancheng Yan, Litao Sun, Peng Qu, Ninping Huang, Yinchen Song and
Zhongdang Xiao (2009) Journal of Solid State Chemistry, 182 (10), 2941-2945.
189
141. Thandeka Mthethwa, V.S.R. Rajasekhar Pullabhotlar Phumlani S. Mdluli, James
Wesley - Smith and Neerish Revaprasadu (2009) Polyhedron, 28 (14), 2977-
2982.
142. Yandan Wu, Lishi Wang, Mingwei Xiao and Xin Jian Huang (2008) Journal of
Non-Crystalline Solids 354, 2993-3000.
143. Jia Zhu, Junhao Zhang, Jiang bo Zhen, Chuanxiang Chen, Jun Lu, Su Chen
(2010) Physica B 405, 3452 – 3457.
144. Puja Chawla, Geeta Sharma, S.P. Lochab and Nafa Singh (2010) Bulletin of
Materials Science 33 (5), 535 - 541.
145. R. Seoudi, M. kamal, A.A. Shabaka, E.M. Abdelrazek and W. Eisa (2010)
Synthetic Metals 160, 479-484.
146. Y.Liu, T. Tan, B. Wang, R. Zhai, X. Song, E.Li, H. Wang and H. Yan (2008)
Journal of Colloid and Interface Science 320, 540-547.
147. Titipun Thongtem. Anukorn Phuruangrat and Somchai Thongtem (2008)
Journal of Physics and Chemistry of Solids 69, 1346 – 1349.
148. Anukorn Phuruangrat, Titipun Thongtem and Somchai Thongtem (2009)
Current Applied Physics 9, S201- S204.
149. Baocheng Zhang, Yuhua shen, Anjian Xie, Liangbao Yang and Xiufang Wang
(2009) Materials Chemistry and Physics 116, 392-399.
150. J.K. Dongre and M. Ramrakhiani (2009) Journal of Alloys and Compounds, 487
(1-2), 653-658.
190
151. Zinki Jindal and N.K.Verma (2009) Physica E 41, 1752-1756.
152. Sonia Arora, S.S. Manoharan (2008) Materials Chemistry and Physics 110, 34-
37.
153. Qi Xiao, Chong Xiao and Linli Ougang (2008) Journal of Luminescence 128,
1942-1947.
154. Yao- hai Zhang, Hua-shan Zhang, Xiao-feng Guo and Hong Wang (2008)
Microchemical Journal 89, 142-147.
155. Baoyou Geng, Xiaowang Liu, Qingbo Du, Jinzhu Ma and Xianming Liu (2008)
Materials Research Bulletin 43, 1093-1098.
156. Jiebo Chen, Shen Lin, Guiyang Yan, Liuyi Yang and Xinqin Chen (2008)
Catalysis Communications 9, 65-69.
157. R.S. Yadav, Priya Mishra, Rupali Mishra, Manvendra Kumar and Avinash C.
Pandey (2010) Ultrasonics Sonochemistry, 17, 116-122.
158. 158. P. Thangadurai, S. Balaji and P.T. Manoharan (2009) Materials Chemistry
and Physics 114, 420-424.
159. Junjie Zhu, Miaogao Zhou, Jinzhong Xu and Xuehong Liao, (2001) Materials
Letters 47, 25-29.
160. Rong He, Xue-feng Qian, Jie Yin, Li- Juan Bian, Hong-an Xi and Zi-Kang Zhu,
(2003) Materials Letters 57, 1351-1354.
161. 161. S.H.Liu, X.F. Qian, J.Yin, X.D. Ma, J.Y. Yuan, Z.K. Zhu (2003) Journal of
Physics and Chemistry of Solids 64, 455-458.
191
162. 162. S.H. Liu, X.F. Qian, J.Yin, H.A. Xi, Z.H. Huang and Z.K. Zhu (2003)
Materials Science and Engineering B 98, 99-103.
163. Shuhong Liu, Haiwei Lu, Xuefeng Qian, Jie Yin, and Zikang Zhu (2003)
Journal of Solid State Chemistry 172, 480-484.
164. Amir Abbas Rafati, Ahmad Reza Afraz Borujeni, Mojgan Najafi and Ahmad
Bagheri (2011) Materials Characterization 62, 94-98.
165. Narjes Ghows and Mohammed H. Entezari (2011) Ultrasonics Sonochemistry 18, 629-
634.
166. Jiang Ru, Zhu Huayue, Li xiaodong and Xiao Ling (2009) Chemical
Engineering Journal 152, 537-542.
167. Srabanti Ghosh, Aparna Datta and Abhijit Saha (2010) Colloids and Surfaces
A: Physicochemical Engineering Aspects 355, 130-138.
168. H.D. Lutz, G. Schneider and G. Kliche (1985) Journal of Physics and Chemistry of
Solids 46, 437-443.
169. Yong Xu and Martin A.A. Schoonen (2000) American Mineralogist 85, 543-556.
170. T. Chattopadhyay, H.G.V. Schnering and H.A. Graf (1984) Solid State
Communications 50, 9, 865-867.
171. G. Brostigen and A. Kjekshus (1970) Acta Chemica Scandinavika 24, 2993.
172. J.M. Hastings, N. Elliott and L.M Corliss (1959) Physical Review 115, 2778.
173. E.F. Westrun, Jr. and F. Gronvold (1970) Journal of Chemical Phyics 52, 3870.
192
174. M.S. Lin and H. Hacker, Jr. (1968) Solid State Communications 6, 687.
175. J.M. Hastings and L.M. Corliss (1976) Physical Review B 14, 1995.
176. Sigrid Furuseth and Arne Kjekshus (1965) Acta Chemica Scandinavica 19, 1405-
1410.
177. H.Vogt, T. Chattopadhyay and H.J. Stolz (1983) Journal of Physics and Chemistry of
Solids 44, 869-873.
178. T.Chattopadhyay, P. Burlet, L.P. Regnault and J. Rossat – Mignod (1989)
Physica B 156 & 157, 241-243.
179. Joakim Bebie, Martin A.A Schoonen, Mark Fuhrmann and Daniel R. Strongin
(1998) Geochimica et Cosmochimica Acta, 62 (4), 633-642.
180. W. Blitz and F.Z. Wiechmann, (1936) Anorganic Allgemie Chemique 228, 268.
181. Jun Liu and Dongfeng Xue (2009) Journal of Crystal Growth 311, 500-503.
182. P.J. Nigrey, R.A. Guidotti and F.W. Reinhardt (2001) Proceedings of the 200th
Meeting of the Electrochemical Society, San Francisco, CA, September 2-7.
183. M. Arinov and G. Depasquali (1970) Journal of Inorganic Nuclear Chemistry
32, 3403.
184. Auroux, B. Bonnetol and J. Bousquet (1971) Bulletin of the Society of Chemistry
in France 11, 3904.
185. H. Schnaase (1933) Zeitschrizt fur Physics and Chemistry B 20, 89.
186. R.K Sharma, A.C. Rastogi, Sandeep kohli, Tae won Kang and Gurmeet Singh
(2004) Physica B 351, 45-52.
193
187. Chao Zhang, Feng Tao, Guang Qiang Liu, Lian Zeng Yao and Wei Li Cai
(2008) Materials Letters 62, 246 - 248.
188. P.H Borse, D. Srinivas, R.F. Shinde, S.K. Date, W. Vogel and S.K. Kulkarni
(1999) Physical Review B 60, 8659-8664.
189. S. N. Sharma, R.K. Sharma, K.N. Snood and S.Singh (2005) Materials
Chemistry and Physics 93, 368- 375.
190. K. Prabhakara Rao, A. Govindaraj and C.N. R. Rao (2007) Journal of Solid State
Chemistry 180, 3571- 3575.
191. V.P. Singh. J. Mc clure, G.B. Lush, W. Wang, X. Wang, G.W. Thompson and E-
Clart (1999) Solar Energy Meterials and Solar Cells 59, 14 – 161.
192. J. Britt and C. Ferekides, (1993) Applied Physics Letters 62 (22), 2851-2852.
193. Amiya Priyam, Anindita Chatterjee, Subash. C. Bhattacharya and Abhijit Saha
(2007) Journal of Crystal Growth 304, 416-424.
194. Patrick J. Masset and Ronald A. Guidotti (2008) Journal of Power Sources 178,
456-466.
195. Kjekshus and D.G. Nicholson (1971) Acta Chemica Scandinavika 25, 866.
196. A.G Saskin (1997) Chemical Society Reviews 26, 233-238.
197. J.J. Zhu, M.G. Zhou, J.Z. Xu and X.H. Liao (2001) Materials Letters 47, 25-29.
198. X.H. Liao, J.J. Zhu and H.Y. Chen (2001) Materials Science and Engineering B
85, 85-89.
194
199. F. Fievet, J.P. Lagier and M. Figlarz (1989) MRS Bulletin, Dec, 29.
200. G. Viau, F. Fievet – Vincent and F. Fievet (1996) Solid State Ionics 84, 259-270.
201. G. Viau, F. Fievet – Vincent and F. Fievet (1996) Journal of Materials
Chemistry 6, 1047-1053.
202. S. Sun, C.B. Murray, D. Weller, L. Folks and A. Moser (2000) Science 287, 1989-
1992.
203. O. Palchik, R. Kerner, A. Gedanken, A.M. Weiss, M.A. Slifkin and V. Palchik
(2001) Journal of Materials Chemistry 11, 874-878.
204. R. Kerner, O. Palchik, and A. Gedanken (2001) Chemistry of Materials 13,
1413-1419.
205. H. Grisaru, O. Palchik A. Gedanken, V. Palchik, M.A. Slifkin, A.M. Weiss and
Y.R. Hacohen (2001) Inorganic Chemistry 40, 4814-4815.
206. H. Grisaru, O. Palchik, A. Gedanken, V. Palchik, M.A. Slifkin, A.M. Weiss and
Y.R. Hacohen (2002) Journal of Materials Chemistry 12, 339-344.
207. B.D. Cullity (1978) Elements of X-ray Diffraction (2nd
edition) [Addition
Wesley, New York]
208. Douglas A. Skoog, F. James Holler, Timothy A. Nieman (2005) Principles of
Instrumental Analysis (5th
edition) [Thomson Brooks /Cole].
209. Jinlei Yao, Carly N. Kline, Hao Gu, Mi yan and Jennifer A. Aitken (2009)
Journal of Solid State Chemistry 182, 2579 – 2586.
195
210. H.S. Nalwa (Ed), (2000) Handbook of Nanostructred Materials and
Nanotechnology, Volume 1 [Academic Press, New York].
211. J.K. Dongre, Vikas Nogriya and M. Ramrakhiani(2009) Applied Surface Science
255, 6115-6120.
212. 212. Hobart H. Willard, Lynne L. Merritt, Jr. John A. Dean, Jr.Frank A. Settle
Instrumental Methods of Analysis (7th
edition), [CBS Publishers & Distributors].
213. Michael E. Brown (1988) Introduction to Thermal Analysis: Techniques and
Application [Chapman and Hall, New York].
214. Gouri Sankar Paul, Purabi Gogoi and Pratima Agarwal (2008) Journal of Non-
Crystalline Solids 354, 2195-2199.
215. W.D. Harrison, J.B. Gill and D.C. Goodall (1983) Polyhedron 2 (3), 153-156.
216. T. Hatakeyama and Z.Liu (Eds.) (1998) Handbook of Thermal Analysis [John
Wiley & Sons, England] (Chapter 3) P. 43.
217. B. Shanthini, C. Anitha, C. Mahadevan and C. Bala singh (1999) Indian Journal
of Physics 73A, 805-809.
218. T.H. Freeda and C. Mahadevan (2000) Bulletin of Materials Science 23, 335-
340.
219. D. Q. Livingsta, T. Mary Jeeva, C. Mahadavan and C. Balasingh (2001) Indian
Journal of Physics 75A, 241-244.
220. J. Albin Sancta, A. Gnana Sutha, T.H. Freeda, C. Mahadevan and C. Balasingh
(2001) Indian Journal of Physics 75A, 245-247.
196
221. M. Priya, C.M. Padma, T.H. Freeda, C. Mahadevan and C. Balasingh (2001)
Bulletin of Materials Science 24, 511-514.
222. G. Deepa, T.H Freeda, and C. Mahadevan (2002) Indian Journal of Physics 76
A, 369-372.
223. Anne Assencia and C. Mahadevan (2005) Bulletin of Materials Science 28, 415-
418.
224. V.N. Praveen and C.K. Mahadevan (2005) Indian Journal of Physics 79, 639-
642.
225. G. Selvarajan and C.K. Mahadevan (2006) Journal of Materials Science 41,
8218-8225.
226. C.K. Mahadevan and K. Jayakumari (2008) Physica B: Condensed Matter 403,
3990-3996.
227. C.K. Mahadevan (2008) Physica B, 403, 57-60.
228. Wagner and P. Hartman (1950) Journal of Chemical Physics 18, 72.
229. K.V. Rao and A.A. Smakula (1965) Journal of Chemical Physics 36, 2031 –
2038.
230. S. Govinda and K.V. Rao (1975) Physica Status Solidi (a) 27, 639 – 644.
231. N.E. Hill, W.E. Vaughan , A.H. Price and M. Davies (1969) Dielectric
Properties and Molecular Behaviour [ Von Nostrand Reinhold Company,
London].
197
232. C.M. Padma (2007) Studies on some binary alkali halide solid solutions [Ph.D.
Thesis submitted to Manonmaniam Sundaranar University, Tirunelveli].
233. T.H Freeda and C. Mahadevan (2004) Proceedings of the International
Workshop on the Preparation & Characterisation of Technologically Important
Single Crystals, P.350-353.
234. J.V. Libija and C. Mahadevan (2004) Inorganic Materials: Recent Advances
[Narosa Publising House, New Delhi] P. 98-101.
235. S. Perumal and C.K. Mahadevan (2005) Physica B, 367, 172-181.
236. S. Goma, C.M. Padma and C.K. Mahadevan (2006) Materials Letters 60, 3701-
3705.
237. C.K. Mahadevan, M. Priya and T.H. Freeda (2007) Advances in Technologically
Important Crystals [ Macmillan Publishers, New Delhi ] P. 146-156.
238. N. Manonmani, C.K. Mahadevan and V. Umayorubhagam(2007) Materials and
Manufacturing Processes 22, 388-392.
239. N. Neelakanda Pillai and C.K. Mahadevan (2007) Materials and Manufacturing
Processes, 22, 393-399.
240. M. Meena and C.K. Mahadevan (2008) Crystal Research and Technology 43,
166-172.
241. M. Priya and C.K. Mahadevan (2008) Physica B 403, 67-74.
242. C.M. Padma and C.K. Mahadevan (2008) Materials Manufacturing Processes
23, 144-151.
198
243. N. Manonmani, C.K. Mahadevan and V. Umayorubhagam (2008) Materials and
Manufacturing Processes 23, 152-158.
244. N. Joseph John and C.K. Mahadevan (2008) Materials and Manufacturing
Processes 23, 809-815.
245. C.M. Padma and C.K. Mahadevan (2008) Physica B 403, 1708-1714.
246. M. Meena and C.K Mahadevan (2008) Materials Letters 62, 3742-3744.
247. P.V. Dhanaraj, C.K. Mahadevan, G. Bhagavanarayana, P. Ramasamy and N.P.
Rajesh (2008) Journal of Crystal Growth 310, 5341-5346.
248. M. Priya and C.K. Mahadevan (2009) Crystal Research Technology 44, 92-102.
249. N. Theresita Shanthi, P. Selvarajan and C.K. Mahadevan (2009) Current
Applied Physics, 9, 1155-1159.
250. P. Rajesh, P. Ramasamy and C.K. Mahadevan (2009) Journal of Crystal Growth
311, 1156-1160.
251. R.N. Basu and H.S. Maiti (1986) Transactions of the International Ceramics
Society 45, 140 – 149.
252. R Gerhardt and A.S Nowick (1986) Journal of the American Ceramic Society
69, 641- 646.
253. J.R. Macdonald (1987) Impedance Spectroscopy Emphasizing Solid Materials
and Systems [John Willey & Sons, Newyork]
254. O. Prakash, L. Pandey, H.S. Tewari , V.B. Tare and D. Kumar (1990)
Ferroelectrics 102, 203-211.
199
255. L. Pandey, O. Prakash, R.K. Katare and D. Kumar (1995) Bulletin of Materials
Science 18, 563.
256. E. Iguchi, K. Ueda and W.H. Jung (1996) Physical Review B 54, 17431 – 17347.
257. M.S Tsai and T.Y. Tseng (1998) Materials Chemistry and Physics 57, 47-56.
258. A. Nasar and M. Shamsuddin (2000) Journal of Materials Science 35, 1465-
1468.
259. K. Prabakar, S.K. Narayandass and D. Mangalaraj (2002) Crystal Research and
Technology 37, 1094 – 1103.
260. A . Hooper (1977) Journal of Physics D: Applied Physics 10, 1487-1496.
261. D.C. Sinclair and A.R. West (1989) Journal of Applied Physics 66, 3850 -3856.
262. J. Ross Macdonald (1987) Impedance Spectroscopy Emphasizing Solid
Materials and Systems [A Wiley Interscience Publication, New York].
263. R. Sakthi Sudar Saravanan (2009) Studies on some II- VI compound materials
[Ph.D. Thesis submitted to Manonmaniam Sundaranar University, Tirunelveli].
264. L. Brus (1986) Journal of Physical Chemistry 90, 2555 – 2560.
265. S.V. Gaponenko (1998) Optical Properties of Semiconductor Nanocrystals
[Cambridge University Press, Cambridge].
266. Kittel (1996) Introduction to Solid State Physics (7th
Edn.) [Wiley Eastern
Limited, New Delhi].
200
267. D.A. Skoog, E.J. Holler and T.A. Nieman (2005) Principles of Instrumental
Analysis (5th
edition) [Thomson Asia Pte Ltd, Singapore].
268. V.N. Praveen (2008) Growth and characterization of some novel metal organic
nonlinear optical crystals [Ph.D. Thesis submitted to Manonmaniam Sundaranar
University, Tirunelveli].
269. M. Priya (2007) Studies on some alkali halide mixed crystals [Ph.D. Thesis
submitted to Manonmaniam Sundaranar University, Tirunelveli].
270. N. Theresita Shanthi (2009) Studies on TGS single crystals doped with halide
compounds [Ph.D. Thesis submitted to Manonmaniam Sundaranar University,
Tirunelveli].
271. G. Janita Christobel (2009) Investigations on ZnS – ZnO nanocomposites [Ph.D.
Thesis submitted to Manonmaniam Sundaranar University, Tirunelveli].
272. B.Ludolph, M.A. Malik, O. Brien and N. Revaprasadu (1998) Chemical
Communications 1849-1850.
273. Suparna Sadhu, Paramita Saha Chowdhury and Amitava Patra (2008) Journal of
Luminescence 128, 1235 – 1240.
274. Su Huilan, Han Jie, Dong Qun, Zhang Di and Guo Qixin (2008)
Nanotechnology 19, 025601.
275. O. Vigil, I.Reich, M. Garcia – Rocha and O. Zelaya – Angel (1997) Journal of
Vacuum Science and Technology A 15, 2282.
276. Xinjian Cheng, Qiang Zhao, Yingkui Yang, Sie Chin Tjong and Robert K.Y.Li
(2008) Journal of Colloid and Interface Science 326, 121 – 128.
201
277. B.C. Dodrill, www.vsm.com (in www.lakeshore.com).
278. Gurdeep Chatwal and Sham Anand (1995) Spectroscopy (Atomic and
Molecular) [Himalaya Publishing House, India].
279. R. Murugeshan (2003) Modern Physics (11th
Revised Edition) [S. Chand &
Company Ltd, New Delhi].
280. M.E. Evans and F. Heller (2003) Environmental Magnetism: Principles and
Applications of Enviromagnetics, International Geophysics Series, Vol. 86
[Academic Press, New York].
281. Shu-Man Liu, Feng-Qi Liu, Hai-Qing Guo, Zhi-Hua Zhang and Zhan-Guo Wang
(2000) Solid State Communications 115, 615- 618.
282. Subhajit Biswas, Soumitra Kar and Subhadra Chaudhuri (2005) Journal of
Crystal Growth 284, 129-135.
