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Yury Gogotsi
Researcher at Drexel University
Publications - 1038
Citations - 202596
Yury Gogotsi is an academic researcher from Drexel University. The author has contributed to research in topics: MXenes & Carbon. The author has an hindex of 171, co-authored 956 publications receiving 144520 citations. Previous affiliations of Yury Gogotsi include Qatar Airways & Clemson University.
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Electrospun MXene/carbon nanofibers as supercapacitor electrodes
Ariana Levitt,Mohamed Alhabeb,Christine B. Hatter,Asia Sarycheva,Genevieve Dion,Yury Gogotsi +5 more
TL;DR: In this article, MXene flakes are added into PAN solutions at a weight ratio of 2':'1 (MXene' :'PAN) in the spinning dope, producing fiber mats with up to 35 wt% MXene.
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Atomic layer deposition of SnO2 on MXene for Li-ion battery anodes
TL;DR: In this paper, a composite SnO2/MXene anode was fabricated for Li-ion battery applications, where conductive MXene sheets act to buffer the volume changes associated with lithiation and delithiation.
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Wet chemistry route to hydrophobic blue fluorescent nanodiamond.
Vadym Mochalin,Yury Gogotsi +1 more
TL;DR: Bright blue fluorescence of the octadecylamine-modified nanodiamond opens up new avenues for its use as a non-toxic quantum dot analogue for biomedical imaging of cellular membranes and other hydrophobic components of biological systems.
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Carbide-Derived Carbons: Effect of Pore Size on Hydrogen Uptake and Heat of Adsorption**
TL;DR: In this paper, a systematic experimental investigation of a large number of carbide-derived carbons with controlled pore size distributions and specific surface area (SSA) was conducted to investigate the effect of small pore sizes on the heat and volume of adsorbed H2.
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Titanium Carbide Derived Nanoporous Carbon for Energy-Related Applications
Ranjan Dash,John Chmiola,Gleb Yushin,Yury Gogotsi,Giovanna Laudisio,Jonathan P. Singer,John E. Fischer,Sergei O. Kucheyev +7 more
TL;DR: In this paper, high surface area nanoporous carbon has been prepared by thermo-chemical etching of titanium carbide TiC in chlorine in the temperature range 200-1200-C. Structural analysis showed that this carbide-derived carbon was highly disordered at all synthesis temperatures.