A membrane-free interfacial battery with high energy density
Abstract
A new concept of the membrane-free interfacial battery was designed and presented.
- Authors:
-
- Division of Energy Storage, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Dalian 116023, China
- Energy and Environment Directorate, Pacific Northwest National Laboratory, Richland, USA
- Publication Date:
- Sponsoring Org.:
- USDOE
- OSTI Identifier:
- 1474752
- Grant/Contract Number:
- 121421KYSB20170032
- Resource Type:
- Publisher's Accepted Manuscript
- Journal Name:
- ChemComm
- Additional Journal Information:
- Journal Name: ChemComm Journal Volume: 54 Journal Issue: 82; Journal ID: ISSN 1359-7345
- Publisher:
- Royal Society of Chemistry (RSC)
- Country of Publication:
- United Kingdom
- Language:
- English
Citation Formats
Xu, Pengcheng, Xie, Congxin, Wang, Chenhui, Lai, Qinzhi, Wang, Wei, Zhang, Huamin, and Li, Xianfeng. A membrane-free interfacial battery with high energy density. United Kingdom: N. p., 2018.
Web. doi:10.1039/C8CC06048G.
Xu, Pengcheng, Xie, Congxin, Wang, Chenhui, Lai, Qinzhi, Wang, Wei, Zhang, Huamin, & Li, Xianfeng. A membrane-free interfacial battery with high energy density. United Kingdom. https://doi.org/10.1039/C8CC06048G
Xu, Pengcheng, Xie, Congxin, Wang, Chenhui, Lai, Qinzhi, Wang, Wei, Zhang, Huamin, and Li, Xianfeng. Thu .
"A membrane-free interfacial battery with high energy density". United Kingdom. https://doi.org/10.1039/C8CC06048G.
@article{osti_1474752,
title = {A membrane-free interfacial battery with high energy density},
author = {Xu, Pengcheng and Xie, Congxin and Wang, Chenhui and Lai, Qinzhi and Wang, Wei and Zhang, Huamin and Li, Xianfeng},
abstractNote = {A new concept of the membrane-free interfacial battery was designed and presented.},
doi = {10.1039/C8CC06048G},
journal = {ChemComm},
number = 82,
volume = 54,
place = {United Kingdom},
year = {Thu Oct 11 00:00:00 EDT 2018},
month = {Thu Oct 11 00:00:00 EDT 2018}
}
Free Publicly Available Full Text
Publisher's Version of Record
https://doi.org/10.1039/C8CC06048G
https://doi.org/10.1039/C8CC06048G
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Cited by: 16 works
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Works referenced in this record:
Shunt current loss of the vanadium redox flow battery
journal, December 2011
- Xing, Feng; Zhang, Huamin; Ma, Xiangkun
- Journal of Power Sources, Vol. 196, Issue 24
Biphenyl-lithium-TEGDME solution as anolyte for high energy density non-aqueous redox flow lithium battery
journal, September 2018
- Pan, Feng; Yang, Jing; Jia, Chuankun
- Journal of Energy Chemistry, Vol. 27, Issue 5
Study on a high current density redox flow battery with tin(Ⅱ)/tin as negative couple
journal, April 2015
- Chen, Fuyu; Sun, Qing; Gao, Wei
- Journal of Power Sources, Vol. 280
Progress and prospects of next-generation redox flow batteries
journal, November 2018
- Zhang, Changkun; Zhang, Leyuan; Ding, Yu
- Energy Storage Materials, Vol. 15
Sucrose pyrolysis assembling carbon nanotubes on graphite felt using for vanadium redox flow battery positive electrode
journal, March 2018
- Yang, Haitao; Fan, Chuanlin; Zhu, Qingshan
- Journal of Energy Chemistry, Vol. 27, Issue 2
A Membrane-Free Redox Flow Battery with Two Immiscible Redox Electrolytes
journal, July 2017
- Navalpotro, Paula; Palma, Jesus; Anderson, Marc
- Angewandte Chemie International Edition, Vol. 56, Issue 41
Electrochemical Energy Storage for Green Grid
journal, May 2011
- Yang, Zhenguo; Zhang, Jianlu; Kintner-Meyer, Michael C. W.
- Chemical Reviews, Vol. 111, Issue 5, p. 3577-3613
Recent Progress in Redox Flow Battery Research and Development
journal, September 2012
- Wang, Wei; Luo, Qingtao; Li, Bin
- Advanced Functional Materials, Vol. 23, Issue 8, p. 970-986
Comparative Electrocatalytic Performance of Single-Walled and Multiwalled Carbon Nanotubes for Zinc Bromine Redox Flow Batteries
journal, June 2014
- Munaiah, Y.; Suresh, S.; Dheenadayalan, S.
- The Journal of Physical Chemistry C, Vol. 118, Issue 27
A novel single flow zinc–bromine battery with improved energy density
journal, August 2013
- Lai, Qinzhi; Zhang, Huamin; Li, Xianfeng
- Journal of Power Sources, Vol. 235
Ionic liquid-mediated aqueous redox flow batteries for high voltage applications
journal, September 2016
- Chen, Ruiyong; Hempelmann, Rolf
- Electrochemistry Communications, Vol. 70
A low-cost iron-cadmium redox flow battery for large-scale energy storage
journal, October 2016
- Zeng, Y. K.; Zhao, T. S.; Zhou, X. L.
- Journal of Power Sources, Vol. 330
Molecular engineering of organic electroactive materials for redox flow batteries
journal, January 2018
- Ding, Yu; Zhang, Changkun; Zhang, Leyuan
- Chemical Society Reviews, Vol. 47, Issue 1
Advanced Redox-Flow Batteries: A Perspective
journal, September 2015
- Perry, Mike L.; Weber, Adam Z.
- Journal of The Electrochemical Society, Vol. 163, Issue 1
Electrical Energy Storage for the Grid: A Battery of Choices
journal, November 2011
- Dunn, B.; Kamath, H.; Tarascon, J. -M.
- Science, Vol. 334, Issue 6058
Alkaline quinone flow battery
journal, September 2015
- Lin, K.; Chen, Q.; Gerhardt, M. R.
- Science, Vol. 349, Issue 6255, p. 1529-1532
Bimodal highly ordered mesostructure carbon with high activity for Br2/Br− redox couple in bromine based batteries
journal, March 2016
- Wang, Chenhui; Li, Xianfeng; Xi, Xiaoli
- Nano Energy, Vol. 21
TEMPO-Based Catholyte for High-Energy Density Nonaqueous Redox Flow Batteries
journal, October 2014
- Wei, Xiaoliang; Xu, Wu; Vijayakumar, Murugesan
- Advanced Materials, Vol. 26, Issue 45
Progress in redox flow batteries, remaining challenges and their applications in energy storage
journal, January 2012
- Leung, Puiki; Li, Xiaohong; Ponce de León, Carlos
- RSC Advances, Vol. 2, Issue 27
High-performance porous uncharged membranes for vanadium flow battery applications created by tuning cohesive and swelling forces
journal, January 2016
- Lu, Wenjing; Yuan, Zhizhang; Zhao, Yuyue
- Energy & Environmental Science, Vol. 9, Issue 7
Zinc–bromine hybrid flow battery: effect of zinc utilization and performance characteristics
journal, January 2014
- Suresh, S.; Kesavan, T.; Munaiah, Y.
- RSC Adv., Vol. 4, Issue 71
Membrane-less hydrogen bromine flow battery
journal, August 2013
- Braff, William A.; Bazant, Martin Z.; Buie, Cullen R.
- Nature Communications, Vol. 4, Issue 1
A review of energy storage technologies for wind power applications
journal, May 2012
- Díaz-González, Francisco; Sumper, Andreas; Gomis-Bellmunt, Oriol
- Renewable and Sustainable Energy Reviews, Vol. 16, Issue 4
A novel iron-lead redox flow battery for large-scale energy storage
journal, April 2017
- Zeng, Y. K.; Zhao, T. S.; Zhou, X. L.
- Journal of Power Sources, Vol. 346
Dual function of quaternary ammonium in Zn/Br redox flow battery: Capturing the bromine and lowering the charge transfer resistance
journal, May 2014
- Jeon, Jae-Deok; Yang, Hyeon Sun; Shim, Joonmok
- Electrochimica Acta, Vol. 127
Comparative analysis for various redox flow batteries chemistries using a cost performance model
journal, October 2015
- Crawford, Alasdair; Viswanathan, Vilayanur; Stephenson, David
- Journal of Power Sources, Vol. 293
A metal-free organic–inorganic aqueous flow battery
journal, January 2014
- Huskinson, Brian; Marshak, Michael P.; Suh, Changwon
- Nature, Vol. 505, Issue 7482, p. 195-198