Role of Surface Structure on Li-Ion Energy Storage Capacity of Two-Dimensional Transition-Metal Carbides

Xie, Yu; Naguib, Michael; Mochalin, Vadym N.; Barsoum, Michel W.; Gogotsi, Yury; Yu, Xiqian; Nam, Kyung‐Wan; Yang, Xiao‐Qing; Колесников, А. И.; Kent, Paul R. C.

doi:10.1021/ja501520b

articleJournal of the American Chemical SocietyMar 28, 2014Closed access

Role of Surface Structure on Li-Ion Energy Storage Capacity of Two-Dimensional Transition-Metal Carbides

YXYu Xie MNMichael Naguib VNVadym N. Mochalin MWMichel W. Barsoum YGYury Gogotsi

Drexel University · Brookhaven National Laboratory

PubMed

Indexed incrossrefpubmed

Abstract

A combination of density functional theory (DFT) calculations and experiments is used to shed light on the relation between surface structure and Li-ion storage capacities of the following functionalized two-dimensional (2D) transition-metal carbides or MXenes: Sc2C, Ti2C, Ti3C2, V2C, Cr2C, and Nb2C. The Li-ion storage capacities are found to strongly depend on the nature of the surface functional groups, with O groups exhibiting the highest theoretical Li-ion storage capacities. MXene surfaces can be initially covered with OH groups, removable by high-temperature treatment or by reactions in the first lithiation cycle. This was verified by annealing f-Nb2C and f-Ti3C2 at 673 and 773 K in vacuum for 40 h and…

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Topics & keywords

Topics

Keywords

MXenes
Chemistry
Adsorption
Density functional theory
Carbide
X-ray photoelectron spectroscopy
Transition metal
X-ray absorption spectroscopy

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Clean water and sanitation

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