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Literature DB >> 16487002

Evidence for interfacial-storage anomaly in nanocomposites for lithium batteries from first-principles simulations.

Yuri F Zhukovskii¹, Palani Balaya, Eugene A Kotomin, Joachim Maier.

Abstract

We present theoretical support for a mass storage anomaly proposed for nanocomposites in the context of lithium batteries which forms the transition between an electrostatic capacitive mechanism and an electrode mechanism. Ab initio atomic and electronic structure calculations, performed on the Ti(0001)/Li2O(111) model interface, indicate the validity of the phenomenological model of interfacial Li storage and provide a deeper insight into the local situation. Beyond the specific applicability to storage devices, the possibility of a two-phase effect on mass storage generally highlights the availability of novel degrees of freedom in materials research when dealing with nanocomposites.

Entities: Chemical Disease

Year: 2006 PMID： 16487002 DOI： 10.1103/PhysRevLett.96.058302

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

3 in total

1. Origin of additional capacities in metal oxide lithium-ion battery electrodes.

Authors: Yan-Yan Hu; Zigeng Liu; Kyung-Wan Nam; Olaf J Borkiewicz; Jun Cheng; Xiao Hua; Matthew T Dunstan; Xiqian Yu; Kamila M Wiaderek; Lin-Shu Du; Karena W Chapman; Peter J Chupas; Xiao-Qing Yang; Clare P Grey
Journal: Nat Mater Date: 2013-11-03 Impact factor: 43.841

2. A Biomineralization Strategy for "Net"-Like Interconnected TiO₂ Nanoparticles Conformably Covering Reduced Graphene Oxide with Reversible Interfacial Lithium Storage.

Authors: Qiang Zhang; Yong Yan; Ge Chen
Journal: Adv Sci (Weinh) Date: 2015-08-25 Impact factor: 16.806

3. Hydrothermal Preparation and High Electrochemical Performance of NiS Nanospheres as Anode for Lithium-Ion Batteries.

Authors: Lin-Hui Wang; Long-Long Ren; Yu-Feng Qin; Qiang Li
Journal: Front Chem Date: 2022-02-03 Impact factor: 5.221

3 in total

Evidence for interfacial-storage anomaly in nanocomposites for lithium batteries from first-principles simulations.

1. Origin of additional capacities in metal oxide lithium-ion battery electrodes.

2. A Biomineralization Strategy for "Net"-Like Interconnected TiO2 Nanoparticles Conformably Covering Reduced Graphene Oxide with Reversible Interfacial Lithium Storage.

3. Hydrothermal Preparation and High Electrochemical Performance of NiS Nanospheres as Anode for Lithium-Ion Batteries.

2. A Biomineralization Strategy for "Net"-Like Interconnected TiO₂ Nanoparticles Conformably Covering Reduced Graphene Oxide with Reversible Interfacial Lithium Storage.