Semiconductor quantum dots are inorganic nanoparticles which, because of their unique size-dependent electronic properties, are of high potential interest for the development of light-responsive nanodevices. Photoinduced electron- and energy-transfer processes between quantum dots and attached molecular species offer versatile strategies to implement functionalities such as photosensitised processes, and luminescence sensing and switching.
A. Credi (2012). Quantum dot-molecule hybrids: a paradigm for light-responsive nanodevices. NEW JOURNAL OF CHEMISTRY, 36, 1925-1930 [10.1039/c2nj40335h].
Quantum dot-molecule hybrids: a paradigm for light-responsive nanodevices
CREDI, ALBERTO
2012
Abstract
Semiconductor quantum dots are inorganic nanoparticles which, because of their unique size-dependent electronic properties, are of high potential interest for the development of light-responsive nanodevices. Photoinduced electron- and energy-transfer processes between quantum dots and attached molecular species offer versatile strategies to implement functionalities such as photosensitised processes, and luminescence sensing and switching.File in questo prodotto:
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