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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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Understanding the MXene Pseudocapacitance
TL;DR: A voltage-dependent redox/double-layer co-charging behavior is found: the capacitive mechanism is dominated by the redox process, but the electric double-layer charge works against theredox process.
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Effect of Graphitization on the Wettability and Electrical Conductivity of CVD-Carbon Nanotubes and Films
TL;DR: This paper presents a strategy for modifying the surface chemistry, wettability, and electrical conductivity of carbon tubes and films through annealing in a vacuum with 60-300 nm nanotubes (nanopipes).
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Synthesis and Charge Storage Properties of Hierarchical Niobium Pentoxide/Carbon/Niobium Carbide (MXene) Hybrid Materials
Chuanfang (John) Zhang,Chuanfang (John) Zhang,Majid Beidaghi,Michael Naguib,Maria R. Lukatskaya,Meng-Qiang Zhao,Boris Dyatkin,Kevin M. Cook,Seon Joon Kim,Brandon Eng,Xu Xiao,Donghui Long,Wenming Qiao,Bruce Dunn,Yury Gogotsi +14 more
TL;DR: In this paper, a hierarchical hybrid material with T-Nb2O5 nanoparticles uniformly supported on the surface of Nb2CTx sheets with disordered carbon is presented.
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Two-Dimensional Nb-Based M4C3 Solid Solutions (MXenes)
Jian Yang,Jian Yang,Michael Naguib,Michael Ghidiu,Limei Pan,Jian Gu,Jagjit Nanda,Joseph Halim,Joseph Halim,Yury Gogotsi,Michel W. Barsoum +10 more
TL;DR: In this paper, two two-dimensional Nb4C3-based solid solutions (MXenes), (Nb-0.8,Ti- 0.2)(4)C3Tx, and (nb-1.2,Ti 0.6,Zr 0.4,0.2), where T is a surface termination, were synthesized and confirmed by X-ray diff...
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Flexible MXene–graphene electrodes with high volumetric capacitance for integrated co-cathode energy conversion/storage devices
TL;DR: In this paper, a concept of using reduced graphene oxide (rGO) as a binder bridging electrochemically active conducting particles and enabling the manufacturing of flexible all-solid-state rGO/Ti3C2Tx (MXene) film-based supercapacitors was described.