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A. Paul Alivisatos
Researcher at Lawrence Berkeley National Laboratory
Publications - 488
Citations - 109587
A. Paul Alivisatos is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Nanocrystal & Quantum dot. The author has an hindex of 146, co-authored 470 publications receiving 101741 citations. Previous affiliations of A. Paul Alivisatos include Ludwig Maximilian University of Munich & University of Hamburg.
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Journal ArticleDOI
Spontaneous superlattice formation in nanorods through partial cation exchange.
Richard D. Robinson,Bryce Sadtler,Bryce Sadtler,Denis Demchenko,Denis Demchenko,Can K. Erdonmez,Can K. Erdonmez,Lin-Wang Wang,Lin-Wang Wang,A. Paul Alivisatos,A. Paul Alivisatos +10 more
TL;DR: A colloidal route to synthesizing CdS-Ag2S nanorod superlattices through partial cation exchange is demonstrated and it is shown that strain induces the spontaneous formation of periodic structures.
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Essentially Trap-Free CsPbBr3 Colloidal Nanocrystals by Postsynthetic Thiocyanate Surface Treatment
Brent A. Koscher,Brent A. Koscher,Joseph K. Swabeck,Joseph K. Swabeck,Noah D. Bronstein,Noah D. Bronstein,A. Paul Alivisatos +6 more
TL;DR: This treatment improves the quantum yield of both freshly synthesized and aged nanocrystals (PLQY) to within measurement error (2-3%) of unity, while simultaneously maintaining the shape, size, and colloidal stability.
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Synthesis and photovoltaic application of copper(I) sulfide nanocrystals.
TL;DR: The rational synthesis of colloidal copper(I) sulfide nanocrystals are presented and their application as an active light absorbing component in combination with CdS nanorods to make a solution-processed solar cell with 1.6% power conversion efficiency is demonstrated.
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Tunable localized surface plasmon resonances in tungsten oxide nanocrystals.
TL;DR: It is demonstrated that metallic phases of WO(3-δ) nanoparticles exhibit a strong and tunable localized surface plasmon resonance, which opens up the possibility of rationally designing plasMonic tungsten oxide nanoparticles for light harvesting, bioimaging, and sensing.
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Epitaxial growth and photochemical annealing of graded CdS/ZnS shells on colloidal CdSe nanorods.
TL;DR: These samples provide an opportunity for the study of the evolution of epitaxial strain as the shape of the core varies from nearly spherical to nearly cylindrical, in addition to their robust optical properties.