Weineng Liao scite author profile

Bipolar plates possessing both high electrical conductivity and mechanical strength has been urgently required for redox flow batteries and fuel cells. Contrary to the conventional method of increasing carbon content to maximize the bipolar plate's electrical conductivity, a novel low-carbon-content design based on the bridging effect of graphene is developed. The microstructure, electrical conductivity, flexural strength, vanadium permeability, corrosion current density and its perform-ance in vanadium redox flow battery single cell have been investigated. The low-carbon-content bipolar plates present both high electrical conductivity and flexural strength. Low area specific resistance of 3.3 mΩ cm 2 is reached at 18.7 wt.% carbon content, and flexural strength of 48.1 MPa can be obtained after being reinforced by carbon fibers. The voltage efficiency and energy efficiency of the single cell reach as high as 88.6% and 85.7%, respectively, at 100 mA cm À 2 .Keywords: bridging effect · composite bipolar plates · high performance · low-carbon-content · vanadium redox flow battery.

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Robust proton exchange membrane for vanadium redox flow batteries reinforced by silica-encapsulated nanocellulose

Zhang

Zhong²,

Bian

et al. 2020

International Journal of Hydrogen Energy

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Kinetic modeling of novel solid desiccant based on PVA-LiCl electrospun nanofibrous membrane

et al. 2017

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Weineng Liao

Enhanced performance and durability of composite bipolar plate with surface modification of cactus-like carbon nanofibers

Highly-conductive composite bipolar plate based on ternary carbon materials and its performance in redox flow batteries

Low‐Carbon‐Content Composite Bipolar Plates: A Novel Design and Its Performance in Vanadium Redox Flow Batteries

Robust proton exchange membrane for vanadium redox flow batteries reinforced by silica-encapsulated nanocellulose

Kinetic modeling of novel solid desiccant based on PVA-LiCl electrospun nanofibrous membrane

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