H
Haim Weissman
Researcher at Weizmann Institute of Science
Publications - 72
Citations - 3186
Haim Weissman is an academic researcher from Weizmann Institute of Science. The author has contributed to research in topics: Perylene & Supramolecular chemistry. The author has an hindex of 30, co-authored 69 publications receiving 2829 citations. Previous affiliations of Haim Weissman include Urbana University & University of Illinois at Urbana–Champaign.
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Journal ArticleDOI
Crystallization of Methyl Ammonium Lead Halide Perovskites: Implications for Photovoltaic Applications
Yaron Tidhar,Eran Edri,Haim Weissman,Dorin Zohar,Gary Hodes,David Cahen,Boris Rybtchinski,Saar Kirmayer +7 more
TL;DR: Optimize the procedures for solar cells based on lead bromide perovskite, resulting in 5.4% efficiency and Voc of 1.24 V, improving the performance in this class of devices.
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A recyclable supramolecular membrane for size-selective separation of nanoparticles
TL;DR: Nostructured supramolecular membranes prepared from fibrous assemblies in water can be disassembled in organic solvent after use and then cleaned, reassembled and reused numerous times, allowing their application in the size-selective separation of both metal and semiconductor nanoparticles.
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Supramolecular gel based on a perylene diimide dye: multiple stimuli responsiveness, robustness, and photofunction.
Elisha Krieg,Elijah Shirman,Haim Weissman,Eyal Shimoni,Sharon G. Wolf,Iddo Pinkas,Boris Rybtchinski +6 more
TL;DR: The molecular system PP2b based on a perylene diimide chromophore decorated with polyethylene glycol groups self-assembles in aqueous media into extended supramolecular fibers that form a robust three-dimensional network resulting in gelation, representing an advantageous light harvesting system.
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Ru-Catalyzed Oxidative Coupling of Arenes with Olefins Using O2
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Pathway‐Dependent Self‐Assembly of Perylene Diimide/Peptide Conjugates in Aqueous Medium
TL;DR: It is demonstrated that well-defined amphiphilic molecular systems based on perylene diimide/peptide conjugates exhibit kinetically controlled self-assembly in aqueous medium, enabling pathway-dependent assembly sequences, in which different organic nanostructures are evolved in a stepwise manner.