Автореферат (1151495), страница 5
Текст из файла (страница 5)
(2012) Thin films and assemblies of photosensitivemembrane proteins and colloidal nanocrystals for engineering of hybrid materials with advanced properties.Advances in Colloid and Interface Science. 183-184, 14-2913.Зайцев С.Ю., Соловьева Д.О. (2012) Монослои пурпурных мембран как основабиогибридных наноматериалов // Современные проблемы науки и образования. № 3; URL:http://www.science-education.ru/103-6386.Учебно-методические пособия14.Зайцев, С.Ю., Соловьева, Д.О.
Нано-биогибридные структуры на основе пурпурных мембрани фоточувствительных мембранных белков - родопсинов (учебно-методическое пособие). Учебнометодическое пособие. М.: ФГБОУ ВПО МГАВМиБ, 2013.15.Зайцев, С.Ю., Соловьева, Д.О. Основы биомедицинских нанотехнологий (учебно-методическое пособие). Учебно-методическое пособие. М.: ФГБОУ ВПО МГАВМиБ 2012.Тезисы докладов16.Krivenkov V., Linkov P., Solovyeva D., Bilan R., Chistyakov A., Nabiev I. (2015) Two-photon-induced Förster resonance energy transfer in a quantum dot–bacteriorhodopsin hybrid material. Advances inFunctional Materials, 3, A1–A5.17.Mochalov, K., Solvyeva, D., Chistyakov, A., Zimka, B., Lukashev, E., Nabiev, I., Oleinikov, V.(2015) Raman and SERS spectroscopy of D96N mutant bacteriorhodopsin. Advances in FunctionalMaterials, 3, 497–501.18.Mochalov, K., Solvyeva, D., Chistyakov, A., Zimka, B., Lukashev, E., Nabiev, I., Oleinikov, V.(2015) Silver nanoparticles strongly affect the properties of bacteriorhodopsin, a photosensitive protein ofHalobacterium salinarum purple membranes.
Advances in Functional Materials, 3, 502–506.19.Krivenkov V., Linkov P., Solovyeva D., Bilan R., Chistyakov A., Nabiev I. (2015) Two-photon-induced Förster resonance energy transfer in a quantum dot–bacteriorhodopsin hybrid material. Advances inFunctional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015.20.Solovyeva, D., Chistyakov, A., Lukashev, E., Mochalov, K., Oleinikov, V., Nabiev, I. Silvernanoparticles strongly affect the properties of Halobacterium salinarum photosensitive purple membranescontaining the membrane protein bacteriorhodopsin.
"Наука будущего". Первая международная научнаяконференция. С.-Петербург, 17-20 сентября 2014 г.21.Krivenkov, V., Samokhvalov, P., Solovyeva, D., Grinevich, R., Chistyakov, A., Nabiev, I. Two-photon-induced Förster resonance energy transfer in a hybrid material engineered from semiconductorquantum dots and the membrane protein bacteriorhodopsin. "Наука будущего". Первая международнаянаучная конференция. С.-Петербург, 17-20 сентября 2014 г.2122.Krivenkov, V.A., Solovyeva, D.O., Samokhvalov, P.S., Brazhnik, K.I., Kotkovskiy, G.E.,Chistyakov, A.A., Lukashev, E.P., Nabiev, I.R. Photoinduced modification of quantum dot optical propertiesaffects bacteriorhodopsin photocycle in a (quantum dot)–bacteriorhodopsin hybrid material. Он-лайнпубликация.
Journal of Physics: Conference Series (JPCS). 2014.23.Krivenkov, V.A., Samokhvalov, P.S., Linkov, P.A., Solovyeva, D.O.,Kotkovskii, G.E., Chistyakov,A.A., Nabiev, I. Surface ligands affect photoinduced degradation of the quantum dots optical performance.Он-лайн публикация. http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=1868598Proc.SPIE.
Nanophotonics V 9126 (2014) 91263N.24.Solovyeva, D.O.,Chistyakov, A.A., Lukashev, E. P., Mochalov, K.E., Nabiev, I.R. Silvernanoparticles strongly affect the properties of Halobacterium salinarum photosensitive purple membranescontaining the membrane protein bacteriorhodopsin. Proseedings of international conference Science of theFuture, 2014.25.Solovyeva, D., Lukashev, E., Linkov, P., Samokhvalov, P., Dayneko, S., Zaitsev, S., Oleinikov, V.,Shemetov, A., Sukhanova, A., Nabiev, I., Chistyakov, A.A.
Photovoltaic cells engineered from purplemembranes of Halophilic bacteria and semiconductor quantum dots. International Workshop "LaserPhysics", Prague, Czech Republic, 2013.26.Solovyeva, D. Photovoltaic Cells Engineered from Purple Membranes of Halophilic Bacteria andQuantum Dots (http://sb6.biobricks.org/speaker/daria-solovyeva/) SB6.0: The Sixth International Meeting onSynthetic Biology. July 2013. http://sb6.biobricks.org/27.Solovyeva, D.O.
Nano-bio hybrid systems with the energy transfer properties engineered frompurple membranes of bacteria halobacterium halobium. The 9th International PhD Student Symposium“Horizons in Molecular Biology”. Germeny, Goettingen. 2012.28.Solovyeva, D.O., Zaitsev, S.Yu. Ultrathin films of the bacteriorhodopsin as promisingphotosensitive nanobiomaterials. The 3rd International Symposium “Molecular Photonics.” Russia, 2012.29.Zaitsev, S.Yu., Solovyeva, D.O.
Nanobiohybrid structures based on organized films of thephotosensitive membrane proteins. The 3rd International Symposium “Molecular Photonics”, Russia 2012.30.Zaitsev, S.Yu., Solovyeva, D.O., Nabiev, I. Organized films based on photosensitive membraneproteins as the key elements of nano-bio hybrid structures. 3rd Russian-Hellenic Symposium. Bionanotox2012 “Biomaterials and bionanomaterials: recent problems and safety issues”. Greece, May 2012.31.Solovyeva, D.O., Nabiev, I., Zaitsev, S.Yu. Nano-biomaterials based on bacteriorhodopsinmonolayers.Humboldt Colloquium “The Role of Fundamental Science in the Society", Russia, 2012.32.Zaitsev, S.Yu., Solovyeva, D.O., Nabiev, I. Monolayers based on bacteriorhodopsin as promisingnanobiomaterials. 3rd Russian-Hellenic Symposium.
Bionanotox-2012 “Biomaterials and bionanomaterials:recent problems and safety issues”. Greece, May 2012.33.Solovyeva, D.O., Nabiev, I., Zaitsev, S.Yu. Nano-biomaterials based on bacteriorhodopsinmonolayers. Humboldt Colloquium “The Role of Fundamental Science in the Society", Moscow, Russia, 31May–2 June 2012.22Подписано в печать 06.04.2017 г.Формат А5Бумага офсетная. Печать цифровая.Тираж 120 Экз. Заказ № 22668-17-кцТипография ООО “МДМпринт”(Печатный салон МДМ)119146, г.
Москва, Комсомольский пр-кт, д.28Тел. 8-495-256-10-00.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
