2009
DOI: 10.1016/j.progpolymsci.2008.11.004
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Designer polymer–quantum dot architectures

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Cited by 321 publications
(190 citation statements)
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References 300 publications
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“…Incorporation of colloidal nanoparticles in polymers has emerged as an alternative technology to close-packed films or metal oxide nanocomposites [4,76]. Polymers are cheap and flexible materials, which can be processed in films by different methods (dip coating, spin coating, Dr. Blading) on a broad range of substrates.…”
Section: Polymer Nanocompositesmentioning
confidence: 99%
See 1 more Smart Citation
“…Incorporation of colloidal nanoparticles in polymers has emerged as an alternative technology to close-packed films or metal oxide nanocomposites [4,76]. Polymers are cheap and flexible materials, which can be processed in films by different methods (dip coating, spin coating, Dr. Blading) on a broad range of substrates.…”
Section: Polymer Nanocompositesmentioning
confidence: 99%
“…For example, dyes, organic semiconductors or rare earth ions have been traditionally embedded in polymer matrices to demonstrate amplification or lasing [77][78][79]. Therefore, a polymer nanocomposite containing semiconductor nanocrystals results a flexible material which joins the active properties of the nanoparticles together with the technological feasibilities of the polymer matrices [4,76]. For example, a DFB grating fabricated on polymers containing CdSe/ZnS QDs have been proposed to demonstrate lasing [80,81], even under nanosecond excitation [81].…”
Section: Polymer Nanocompositesmentioning
confidence: 99%
“…Найден энергетический спектр локализованных состояний, обусловленных включением наночастиц. Исследования проведены для нанокомпозитов полиметилметакри-лат (PMMA) с включением наночастиц CdS и α-Al 2 …”
Section: (поступило в редакцию 3 марта 2017 г)unclassified
“…В качестве матрицы используют полупроводни-ковые или диэлектрические материалы, в том числе и полимеры, которые позволяют сохранить оптические свойства наночастиц, защищая их от химического воз-действия окружения. На основе таких нанокомпозитов (PMMA + CdS или CdSe) создают новые типы фото-гальванических приборов, различные оптоэлектронные устройства, методы и средства идентификации и марки-ровки, а также элементы для перспективных сенсорных и телекоммуникационных систем [1,2]. Важно учесть возможность использования данных приборов в усло-виях повышенной радиации, например в космонавтике или ядерной энергетике.…”
unclassified
“…In order to exploit their unique optical properties for biosensing and bioimaging applications, they must be non-toxic and dispersible in aqueous biological media. Approaches to surface modification of QDs to achieve aqueous dispersibility and biocompatibility have included the adsorption of small molecules such as mercaptoacetic acid to QDs surface [38], coating the QDs with silica [39][40], or encapsulating QDs within micelles [41], liposomes [42], and amphiphilic polymers [43]. However, these methods of preparing water-dispersible QDs are complicated and time consuming.…”
Section: Biophotonicsmentioning
confidence: 99%