U
Uri Banin
Researcher at Hebrew University of Jerusalem
Publications - 345
Citations - 23647
Uri Banin is an academic researcher from Hebrew University of Jerusalem. The author has contributed to research in topics: Quantum dot & Nanocrystal. The author has an hindex of 76, co-authored 326 publications receiving 22037 citations. Previous affiliations of Uri Banin include University of California, Berkeley & Technion – Israel Institute of Technology.
Papers
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Efficient near-infrared polymer nanocrystal light-emitting diodes.
TL;DR: Conjugated polymers and indium arsenide–based nanocrystals were used to create near-infrared plastic light-emitting diodes that effectively covers the short-wavelength telecommunications band.
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Selective Growth of Metal Tips onto Semiconductor Quantum Rods and Tetrapods
TL;DR: This work shows the anisotropic selective growth of gold tips onto semiconductor (cadmium selenide) nanorods and tetrapods and shows modified optical properties caused by the strong coupling between the gold and semiconductor parts.
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Colloidal Hybrid Nanostructures: A New Type of Functional Materials
TL;DR: This Review focuses on recent strategies used to create semiconductor-metal hybrid nanoparticles, presents the emergent properties of these multicomponent materials, and discusses their potential applicability in different technologies.
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Heavily doped semiconductor nanocrystal quantum dots.
David Mocatta,Guy Cohen,Jonathan Schattner,Jonathan Schattner,Oded Millo,Oded Millo,Eran Rabani,Uri Banin +7 more
TL;DR: A combination of optical measurements, scanning tunneling spectroscopy, and theory revealed the emergence of a confined impurity band and band-tailing in semiconductor nanocrystals, enabling control of the band gap and Fermi energy.
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Formation of asymmetric one-sided metal-tipped semiconductor nanocrystal dots and rods
TL;DR: In this paper, gold is grown on one side of CdSe nanocrystal quantum rods and dots, creating nanostructures offering intrinsic asymmetry for diverse device functionalities such as diode elements and one-sided chemical accessibility through the gold tips.