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Andrei S. Susha
Researcher at City University of Hong Kong
Publications - 81
Citations - 9531
Andrei S. Susha is an academic researcher from City University of Hong Kong. The author has contributed to research in topics: Quantum dot & Nanoparticle. The author has an hindex of 45, co-authored 81 publications receiving 8554 citations. Previous affiliations of Andrei S. Susha include Max Planck Society & Belarusian State University.
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Journal ArticleDOI
Redox shuttle mechanism enhances photocatalytic H2 generation on Ni-decorated CdS nanorods
Thomas Simon,Nicolas Bouchonville,Nicolas Bouchonville,Maximilian J. Berr,Maximilian J. Berr,Aleksandar Vaneski,Asmir Adrović,Asmir Adrović,David Volbers,David Volbers,Regina Wyrwich,Markus Döblinger,Andrei S. Susha,Andrey L. Rogach,Frank Jäckel,Jacek K. Stolarczyk,Jacek K. Stolarczyk,Jochen Feldmann,Jochen Feldmann +18 more
TL;DR: It is proposed that employing a hydroxyl anion/radical redox couple to efficiently relay the hole from the semiconductor to the scavenger leads to a marked increase in the H2 generation rate without using expensive noble metal co-catalysts.
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Magnetic Nanocomposite Particles and Hollow Spheres Constructed by a Sequential Layering Approach
TL;DR: The fabrication of magnetic composite core−shell particles and hollow spheres with tailored dimensions and compositions has been accomplished by a multistep (layer-by-layer) strategy as discussed by the authors.
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The role of metal nanoparticles in remote release of encapsulated materials
Andre G. Skirtach,Christophe Déjugnat,Dieter Braun,Andrei S. Susha,Andrey L. Rogach,Wolfgang J. Parak,Helmuth Möhwald,Gleb B. Sukhorukov +7 more
TL;DR: A method for measuring the temperature increase and quantitatively investigated the influence of absorption, size, and surface density of metal nanoparticles using an analytical model are developed.
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Control of Emission Color of High Quantum Yield CH3NH3PbBr3 Perovskite Quantum Dots by Precipitation Temperature
TL;DR: Emission color controlled, high quantum yield CH3NH3PbBr3 perovskite quantum dots are obtained by changing the temperature of a bad solvent during synthesis to achieve good spectral purity and short radiative lifetimes.
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Molecular Fluorescence in Citric Acid-Based Carbon Dots
Julian Schneider,Claas J. Reckmeier,Yuan Xiong,Maximilian von Seckendorff,Andrei S. Susha,Peter Kasak,Andrey L. Rogach +6 more
TL;DR: In this paper, the impact of fluorescent derivatives of citrazinic acid on the optical properties of carbon dots has been investigated using three samples employing citric acid and three different nitrogen sources: ethylenediamine, hexamethylenetetramine, and triethanolamine.