A joint experimental and theoretical determination of the structure of discharge products in Na-SO2 batteries

Young Kyu Han; Goojin Jeong; Keon Joon Lee; Taeeun Yim; Young Jun Kim

doi:10.1039/c6cp04423a

A joint experimental and theoretical determination of the structure of discharge products in Na-SO₂ batteries

Young Kyu Han
, Goojin Jeong
, Keon Joon Lee
, Taeeun Yim
, Young Jun Kim

Korea Electronics Technology Institute
Dongguk University
Incheon National University
Sungkyunkwan University

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

5 Scopus citations

Abstract

Na-SO₂ batteries are promising power sources for energy storage systems. However, it is unclear what happens on the cathode surface at the molecular level during the discharge process. Here, we provide the working mechanism of Na-SO₂ batteries through a combination of nuclear magnetic resonance (NMR) spectroscopy and first-principles NMR calculations.

Original language	English
Pages (from-to)	24841-24844
Number of pages	4
Journal	Physical Chemistry Chemical Physics
Volume	18
Issue number	36
DOIs	https://doi.org/10.1039/c6cp04423a
State	Published - 2016

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10.1039/c6cp04423a

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title = "A joint experimental and theoretical determination of the structure of discharge products in Na-SO2 batteries",

abstract = "Na-SO2 batteries are promising power sources for energy storage systems. However, it is unclear what happens on the cathode surface at the molecular level during the discharge process. Here, we provide the working mechanism of Na-SO2 batteries through a combination of nuclear magnetic resonance (NMR) spectroscopy and first-principles NMR calculations.",

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T1 - A joint experimental and theoretical determination of the structure of discharge products in Na-SO2 batteries

AU - Han, Young Kyu

AU - Jeong, Goojin

AU - Lee, Keon Joon

AU - Yim, Taeeun

AU - Kim, Young Jun

PY - 2016

Y1 - 2016

N2 - Na-SO2 batteries are promising power sources for energy storage systems. However, it is unclear what happens on the cathode surface at the molecular level during the discharge process. Here, we provide the working mechanism of Na-SO2 batteries through a combination of nuclear magnetic resonance (NMR) spectroscopy and first-principles NMR calculations.

AB - Na-SO2 batteries are promising power sources for energy storage systems. However, it is unclear what happens on the cathode surface at the molecular level during the discharge process. Here, we provide the working mechanism of Na-SO2 batteries through a combination of nuclear magnetic resonance (NMR) spectroscopy and first-principles NMR calculations.

UR - https://www.scopus.com/pages/publications/84987933107

U2 - 10.1039/c6cp04423a

DO - 10.1039/c6cp04423a

M3 - Article

AN - SCOPUS:84987933107

SN - 1463-9076

VL - 18

SP - 24841

EP - 24844

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 36

ER -

A joint experimental and theoretical determination of the structure of discharge products in Na-SO₂ batteries

Abstract

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