PHYS01200704032 Debes Ray - Homi Bhabha National Institute

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185. L. Reatto and M. Tau, Chem. Phys. Lett. 292, 108 (1984). 186. M. Ballauff, Advanced Engineering Materials 13, 793 (2011). 187. A.E. Whitten and J. Trewhella, Micro and Nano Technologies in Bioanalysis Methods in Molecular Biology 544, 307 (2009). 188. V.K. Aswal and P.S. Goyal, Curr. Sci. India 79, 947 (2000). 189. J. Kohlbrecher and W. Wagner, J. Appl. Cryst. 33, 804 (2000). 190. J.P. Rao and K.E. Geckeler, Progress in Polymer Science 36, 887 (2011). 191. D. Ray and V.K. Aswal, AIP Conf. Proc. 1202, 219 (2009). 192. D. Ray, V.K. Aswal and D. Srivastava, J. Nanosci. Nanotechnol. 10, 6356 (2010). 193. D. Ray, V.K. Aswal and D. Srivastava, Int. J. Nanosci. 10, 1035 (2011). 194. D. Ray, V.K. Aswal and J. Kohlbrecher, AIP Conf. Proc. (2012), in press. 195. D. Ray and V.K. Aswal, 20th Annual General Meeting of Materials Research Society of India, Saha Institute of Nuclear Physics, Kolkata, India (2009). 196. D. Ray and V.K. Aswal, Proceedings of DAE Solid State Physics Symposium 54, 303 (2009). 197. K. Mortensen, Polym. Adv. Technol. 12, 2 (2001). 198. P. Alexandridis, J.F. Holzwarthf and T.A. Hatton, Macromolecules 27, 2414 (1994). 199. P. Alexandridis and T.A. Hatton, Colloids and Surfaces A: Physicochemical and Engineering Aspects 96, 1 (1995). 200. B. Clover and B. Hammouda, Langmuir 26, 6625 (2010). 201. G. Riess, Prog. Polym. Sci. 28, 1107 (2003). 202. D. Ray, V.K. Aswal and D. Srivastava, J. Nanosci. Nanotechnol. 11, 1905 (2011). 203. L. Jyoti, D. Ray and V.K. Aswal, Proceedings of DAE Solid State Physics Symposium 54, 285 (2009). 204. L. Jyoti, D. Ray and V.K. Aswal, Conference on Neutron Scattering and Mesoscopic Systems, International Centre/Goa University, Goa, India (2009). 205. D. Ray and V.K. Aswal, 1st Asia-Oceania Conference on Neutron Scattering, held at Tsukuba, Japan (2011). 206. C.J. Murphy, L.B. Thompson, A.M. Alkilany, P.N. Sisco, S.P. Boulos, S.T. Sivapalan, J.A. Yang, D.J. Chernak and J. Huang, J. Phys. Chem. Lett. 1, 2867 (2010). 207. D. Ray and V.K. Aswal, J. Macromol. Sci. Part B: Phys. 49, 810 (2010). 208. D. Ray, V.K. Aswal and J. Kohlbrecher, AIP Conf. Proc. 1313, 192 (2010). 209. D. Ray, V.K. Aswal and J. Kohlbrecher, Langmuir 27, 4048 (2011). 186
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SYNTHESIS AND CHARACTERIZATION OF B
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STATEMENT BY AUTHOR This dissertati
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DECLARATION I, hereby declare that
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Acknowledgements I would like to ex
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2. BLOCK COPOLYMER-MEDIATED SYNTHES
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5. CORRELATING BLOCK COPOLYMER SELF
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SYNOPSIS OF THE THESIS TO BE SUBMIT
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synthesis for its dependence on gol
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interactions between the templating
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utilized in the formation of nanopa
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nanoparticle-protein conjugate conf
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LIST OF FIGURES Figure 1.1. The len
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Figure 4.2. UV-visible absorption s
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Figure 5.9. (a) Absorbance (Abs max
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Figure 7.5. Integrated absorbance o
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Chapter 1 Synthesis, Characterizati
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Chapter 1: Synthesis, Characterizat
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Chapter 2 Block Copolymer-mediated
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Chapter 2: Block Copolymer-mediated
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Time-dependent Absorbance Chapter 2
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Chapter 3: Multi-Technique Approach
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d/d (Q) (cm -1 ) S(Q) P(Q) Chapter
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d/d (cm -1 ) P(Q) Chapter 3: Multi-
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Chapter 4 Optimization of the Block
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Chapter 4: Optimization of the Bloc
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SPR Peak Absorbance Absorbance Chap
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Absorbance Integrated Absorbance /
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Absorbance Chapter 4: Optimization
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SPR peak absorbance Chapter 4: Opti
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d/d (cm -1 ) Chapter 4: Optimizatio
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g I ()-1 Integrated Scattering Inte
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Relative number (%) Chapter 4: Opti
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Chapter 5 Correlating Block Copolym
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Chapter 5: Correlating Block Copoly
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d/d (cm -1 ) Chapter 5: Correlating
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Absorbance Absorbance Chapter 5: Co
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Integrated Absorbance / Yield Absor
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Absorbance Absorbance Chapter 5: Co
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Chapter 6 High-Yield Synthesis of G
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Chapter 6: High-Yield Synthesis of
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Chapter 6: High-Yield Synthesis of
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