A
Abhishek K. Singh
Researcher at Indian Institute of Science
Publications - 389
Citations - 9883
Abhishek K. Singh is an academic researcher from Indian Institute of Science. The author has contributed to research in topics: Medicine & Band gap. The author has an hindex of 44, co-authored 321 publications receiving 7354 citations. Previous affiliations of Abhishek K. Singh include University of California, Santa Barbara & Tata Institute of Fundamental Research.
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Boron doped defective graphene as a potential anode material for Li-ion batteries
TL;DR: The role of defects and doping in achieving enhanced adsorption without compromising on the high diffusivity of Li is shown, and the two boron doped mono-vacancy graphene shows both a low energy barrier and better Adsorption, and hence can be considered as a potential candidate for anode material.
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Calcium-decorated carbyne networks as hydrogen storage media.
Pavel B. Sorokin,Hoonkyung Lee,Liubov Yu. Antipina,Abhishek K. Singh,Abhishek K. Singh,Boris I. Yakobson +5 more
TL;DR: Calculations show that a Ca-decorated carbyne can adsorb up to 6 H(2) molecules per Ca atom with a binding energy of ∼0.2 eV, desirable for reversible storage, and the hydrogen storage capacity can exceed ∼8 wt %.
Journal Article
Patterning nanoroads and quantum dots on fluorinated graphene
TL;DR: In this article, the fluorination of graphene has been investigated and different stoichiometric phases can be formed without a nucleation barrier, with the complete "2D-Teflon" CF phase being thermodynamically most stable.
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Effect of strain on electronic and thermoelectric properties of few layers to bulk MoS2
TL;DR: 3L- and 2L-MoS₂ emerge as the most efficient thermoelectric materials under NC and BT strain, respectively and optimize the transport properties as a function of the number of layers and the applied strain.
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Recent advances in MXenes: from fundamentals to applications
Mohammad Khazaei,Avanish Mishra,Natarajan Sathiyamoorthy Venkataramanan,Abhishek K. Singh,Seiji Yunoki +4 more
TL;DR: The family of MAX phases and their derivative MXenes are continuously growing in terms of both crystalline and composition varieties, and several breakthroughs have been achieved that boosted the synthesis of novel MAX phases with ordered double transition metals as mentioned in this paper.