V
Victor Chechik
Researcher at University of York
Publications - 116
Citations - 7191
Victor Chechik is an academic researcher from University of York. The author has contributed to research in topics: Electron paramagnetic resonance & Nanoparticle. The author has an hindex of 35, co-authored 106 publications receiving 6662 citations. Previous affiliations of Victor Chechik include North Carolina State University & University of Sheffield.
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Dendrimer-Encapsulated Metal Nanoparticles: Synthesis, Characterization, and Applications to Catalysis
TL;DR: Intradendrimer hydrogenation and carbon-carbon coupling reactions in water, organic solvents, biphasic fluorous/organic solvent, and supercritical CO2 are also described.
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DeerAnalysis2006 - a comprehensive software package for analyzing pulsed ELDOR data
Gunnar Jeschke,Victor Chechik,Petre Ionita,Adelheid Godt,Herbert Zimmermann,Janet E. Banham,Christiane R. Timmel,Daniel Hilger,Hyun Suk Jung +8 more
TL;DR: DeerAnalysis2006 as mentioned in this paper provides access to a comprehensive set of tools for spin-to-spin distance analysis within a common user interface, which allows for several tests of the reliability and precision of the extracted information.
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Self-assembled inverted micelles prepared from a dendrimer template : phase transfer of encapsulated guests
TL;DR: It is demonstrated that complete surface modification of dendrimers can be accomplished by spontaneous, acid-base self-assembly, which eliminates the need for chemical synthesis and purification and can be used directly to prepare solutions in nonpolar solvents without the need of chemical synthesis or purification.
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Reactions and Reactivity in Self-Assembled Monolayers
TL;DR: In this article, a review of self-assembled monolayers (SAMs) is presented, focusing on the features that have no analogues in solution chemistry, such as growth of surface-attached polymers, intra-film reactions, chemistry, photochemistry and reactivity issues.
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Non-Thermal Plasma in Contact with Water: The Origin of Species.
TL;DR: The origin of reactive species in plasma‐treated aqueous solutions was investigated by using spin‐trapping, hydrogen and oxygen isotopic labelling and electron paramagnetic resonance (EPR) spectroscopy to suggest hydrogen peroxide is formed primarily in the plasma tube, whereas the radical species are proposed to originate from the region between the plasma nozzle and the liquid sample.