Effects of nanostructuring on the bond strength and disorder in V2O5 cathode material for rechargeable ion-batteries

Wojciech Olszewski; Irene Isturiz; Carlo Marini; Marta Avila; Masashi Okubo; Huiqiao Li; Haoshen Zhou; Takashi Mizokawa; Naurang Lal Saini; Laura Simonelli

doi:10.1039/c8cp00716k

Effects of nanostructuring on the bond strength and disorder in V₂O₅ cathode material for rechargeable ion-batteries

Wojciech Olszewski^*, Irene Isturiz, Carlo Marini, Marta Avila, Masashi Okubo, Huiqiao Li, Haoshen Zhou, Takashi Mizokawa, Naurang Lal Saini, Laura Simonelli

^*Corresponding author for this work

School of Advanced Science and Engineering

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

We have investigated the nanostructuring effects on the local structure of V₂O₅ cathode material by means of temperature dependent V K-edge X-ray absorption fine structure measurements. We have found that the nanostructuring largely affects V-O and V-V bond characteristics with a general softening of the local V-O and V-V bonds. The obtained bond strengths correlate with the specific capacity shown by the different systems, with higher capacity corresponding to softer atomic pairs. The present study suggests the key role of local atomic displacements in the diffusion and storage of ions in cathodes for batteries, providing important information for designing new functional materials.

Original language	English
Pages (from-to)	15288-15292
Number of pages	5
Journal	Physical Chemistry Chemical Physics
Volume	20
Issue number	22
DOIs	https://doi.org/10.1039/c8cp00716k
Publication status	Published - 2018

ASJC Scopus subject areas

Physics and Astronomy(all)
Physical and Theoretical Chemistry

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title = "Effects of nanostructuring on the bond strength and disorder in V2O5 cathode material for rechargeable ion-batteries",

abstract = "We have investigated the nanostructuring effects on the local structure of V2O5 cathode material by means of temperature dependent V K-edge X-ray absorption fine structure measurements. We have found that the nanostructuring largely affects V-O and V-V bond characteristics with a general softening of the local V-O and V-V bonds. The obtained bond strengths correlate with the specific capacity shown by the different systems, with higher capacity corresponding to softer atomic pairs. The present study suggests the key role of local atomic displacements in the diffusion and storage of ions in cathodes for batteries, providing important information for designing new functional materials.",

author = "Wojciech Olszewski and Irene Isturiz and Carlo Marini and Marta Avila and Masashi Okubo and Huiqiao Li and Haoshen Zhou and Takashi Mizokawa and Saini, {Naurang Lal} and Laura Simonelli",

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year = "2018",

doi = "10.1039/c8cp00716k",

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T1 - Effects of nanostructuring on the bond strength and disorder in V2O5 cathode material for rechargeable ion-batteries

AU - Olszewski, Wojciech

AU - Isturiz, Irene

AU - Marini, Carlo

AU - Avila, Marta

AU - Okubo, Masashi

AU - Li, Huiqiao

AU - Zhou, Haoshen

AU - Mizokawa, Takashi

AU - Saini, Naurang Lal

AU - Simonelli, Laura

N1 - Funding Information: The work is partially supported under the executive protocol of the general agreement for cooperation between the Sapienza University of Rome and the University of Tokyo. Publisher Copyright: © 2018 the Owner Societies.

PY - 2018

Y1 - 2018

N2 - We have investigated the nanostructuring effects on the local structure of V2O5 cathode material by means of temperature dependent V K-edge X-ray absorption fine structure measurements. We have found that the nanostructuring largely affects V-O and V-V bond characteristics with a general softening of the local V-O and V-V bonds. The obtained bond strengths correlate with the specific capacity shown by the different systems, with higher capacity corresponding to softer atomic pairs. The present study suggests the key role of local atomic displacements in the diffusion and storage of ions in cathodes for batteries, providing important information for designing new functional materials.

AB - We have investigated the nanostructuring effects on the local structure of V2O5 cathode material by means of temperature dependent V K-edge X-ray absorption fine structure measurements. We have found that the nanostructuring largely affects V-O and V-V bond characteristics with a general softening of the local V-O and V-V bonds. The obtained bond strengths correlate with the specific capacity shown by the different systems, with higher capacity corresponding to softer atomic pairs. The present study suggests the key role of local atomic displacements in the diffusion and storage of ions in cathodes for batteries, providing important information for designing new functional materials.

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JF - Physical Chemistry Chemical Physics

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Effects of nanostructuring on the bond strength and disorder in V₂O₅ cathode material for rechargeable ion-batteries

Abstract

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