Диссертация (1151496), страница 15
Текст из файла (страница 15)
Ru, E.C. Le. Enhancement factor distribution around a single surface-enhancedRaman scattering hot spot and its relation to single molecule detection / E.C. Le Ru,P.G. Etchegoin, M. Meyer // J. Chem. Phys. - 2006. - V. 125. № 20. - P. 204701.75. Saito, S. Normal-coordinate analysis of retinal isomers and assignments of Ramanand infrared bands / S. Saito, M.Tasumi // J. Raman Spectrosc.
- 1983. - V. 14. № 4. - P.236–245.76. Seifert, K. Charge transport by ion translocating membrane proteins on solidsupported membranes / K. Seifert, K. Fendler, E. Bamberg // Biophys. J. - 1993. - V.64. № 2. - P. 384–91.77. Smith, S.O. Determination of retinal chromophore structure in bacteriorhodopsinwith resonance Raman spectroscopy / S.O.
Smith, J. Lugtenburg, R.A. Mathies // J.Membr. Biol. - 1985. - V. 85. № 2. - P. 95–109.78. Stuart, J. Birge Volumetric optical memory based on bacteriorhodopsin / J. Stuart,D.L. Marcy, K.J. Wise, R.R. Birge // Synth. Met. - 2002. - V. 127. № 1–3. - P. 3–15.79. Subramaniam, S. Molecular mechanism of vectorial proton translocation bybacteriorhodopsin / S. Subramaniam, R.Henderson // Nature.
- 2000. - V. 406. № 6796.- P. 653–657.80. Sukhanova, A. Oriented conjugates of single-domain antibodies and quantum dots:toward a new generation of ultrasmall diagnostic nanoprobes / A. Sukhanova, K. EvenDesrumeaux, A. Kisserli, T. Tabary, B. Reveil, J.M. Millot, P. Chames, D. Baty, M.Artemyev, V.
Oleinikov, M. Pluot, J.H. Cohen, I. Nabiev // Nanomedicine. - 2012. - V.8. № 4. - P. 516–25.81. Takei, H. Implementing receptive fields with excitatory and inhibitory optoelectricalresponses of bacteriorhodopsin films / H. Takei, A. Lewis, Z. Chen, I. Nebenzahl //Appl. Opt. - 1991. - V. 30. № 4. - P. 500–509.82. Thavasi,V. Study on the feasibility of bacteriorhodopsin as bio-photosensitizer inexcitonic solar cell: a first report / V. Thavasi, T. Lazarova, S.
Filipek, M. Kolinski, E.105Querol, A. Kumar, S. Ramakrishna, E. Padrós, V. Renugopalakrishnan // J. Nanosci.Nanotechnol. - 2009. - V. 9. № 3. - P. 1679–1687.83. Tittor, J. Inversion of proton translocation in bacteriorhodopsin mutants D85N,D85T, and D85,96N / J. Tittor, U. Schweiger, D. Oesterhelt, E. Bamberg // Biophys. J. 1994. - V. 67. № 4.
- P. 1682–1690.84. Tkachenko, N.V. Optical spectroscopy : methods and instrumentations / N.V.Tkachenko. - Elsevier. - 2006. - 322 С.85. Tóth-Boconádi, R. Optical and electric signals from dried oriented purple membraneofbacteriorhodopsins/R.Tóth-Boconádi,A.Dér,L.Keszthelyi//Bioelectrochemistry.
- 2011. - V. 81. № 1. - P. 17–21.86. Ulman, A. An introduction to Ultrathin Organic Films from Langmuir-Blodgett toSelf-assembly / A. Ulman. - Boston: Academic Press Inc.- 1991. - 442 P.87. Vsevolodov, N. Biomolecular Electronics : an Introduction via PhotosensitiveProteins / N. Vsevolodov. - Boston: Birkhäuser Boston. - 1998. - 125 P.88. Weetall, H. Optical and electrical-properties of bacteriorhodopsin langmuirblodgett-films/ H. Weetall, L.A. Samuelson // Thin solid Film. - 1998. - V.
312. № 1–2.- P. 306–312.89. Weetall, H.H. D96N mutant bacteriorhodopsin immobilized in sol-gel glasscharacterization / H.H. Weetall // Appl. Biochem. Biotechnol. - 1994. - V. 49. № 3. - P.241–256.90. Wise, K.J. Optimization of bacteriorhodopsin for bioelectronic devices / K.J. Wise,N.B. Gillespie, J.A. Stuart, M.P. Krebs, R.R.
Birge // Trends Biotechnol. - 2002. - V.20. № 9. - P. 387–394.91. Xu, H. Spectroscopy of Single Hemoglobin Molecules by Surface Enhanced RamanScattering / H. Xu, E.J. Bjerneld, M. Käll, L. Börjesson // Phys. Rev. Lett. - 1999. - V.83. № 21. - P. 4357–4360.92. Yen, C.-W. Tailoring Plasmonic and Electrostatic Field Effects To Maximize SolarEnergy Conversion by Bacteriorhodopsin, the Other Natural Photosynthetic System /C.-W. Yen, S.C. Hayden, E.C. Dreaden, P. Szymanski, M.A. El-Sayed // Nano Lett. 2011. - V. 11. - P.
3821–3826.10693. Yen, C.W. Plasmonic field enhancement of the bacteriorhodopsin photocurrentduring its proton pump photocycle / C.W. Yen, L.K. Chu, M. El-Sayed // J. Am. Chem.Soc. - 2010. - V. 132. № 21. - P. 7250–7251.94. Zaitsev, S.Y. Kinetics of dynamic hologram recording in polymer films withimmobilized bacteriorhodopsin / S.Y. Zaitsev, N. M. Kozhevnikov, Yu. O.
Barmenkov,M. Yu. Lipovskaya // Photochem. Photobiol. - 1992. - V. 55. № 6. - P. 851–856.95. Zaitsev, S.Y. Controlled influence of quantum dots on purple membranes atinterfaces / S.Y. Zaitsev, E.P. Lukashev, D.O. Solovyeva, A.A. Chistyakov, V.A.Oleinikov // Colloids Surfaces B Biointerfaces. - 2014. - V. 117. - P. 248–251.96. Zaitsev, S.Y.
Thin films and assemblies of photosensitive membrane proteins andcolloidal nanocrystals for engineering of hybrid materials with advanced properties /S.Y. Zaitsev, D.O. Solovyeva, I. Nabiev // Adv. Colloid Interface Sci. - 2012. - V. 183–184. - P. 14–29.97. Bioelectronic Applications of Photochromic Pigments / eds. A. Dér, L.
Keszthelyi.IOS Press, NATO Science Series, 2001. 725 С..
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
