A silver–bismuth bimetallic functionalized negative electrode for
The sluggish redox kinetics of chromium ions at the negative electrode have hindered the development of iron–chromium redox flow batteries. A silver–bismuth bimetallic
The Effect of Bismuth on the Performance of a
Both the OCV and the ICRFB confirm that the presence of bismuth negatively influences the battery performance due to increased H 2 production. Further research is
Bismuth Electrocatalyst Enabling Reversible Redox Kinetics of a
In this work, we electrodeposited bismuth metal onto a carbon paper anode of a redox flow battery containing our previously reported polyaminocarboxylate-chelated
Bismuth Electrocatalyst Enabling Reversible
In this work, we electrodeposited bismuth metal onto a carbon paper anode of a redox flow battery containing our previously reported
458621_1_En_4_Chapter 41..52
Here we present a two-dimensional physics-based model for Lithium-Bismuth liquid metal batteries.
The Effect of Bismuth on the Performance of a Single-Cell
In this study, the effect of bismuth on the charge/discharge performance of an ICRFB was investigated using both open-circuit voltage (OCV) and charge/discharge cycles. Finally,
The Effect of Bismuth on the Performance of a
Both the OCV and the ICRFB confirm that the presence of bismuth negatively influences the battery performance due to increased H
Magnetically driven flow in a liquid-metal battery
The electrical conductivities of the steel container and liquid bismuth are likely to differ by no more than around 10%–20%, whereas the conductivity of the electrolyte is a factor of 2500 times
Bismuth-lead oxides co-modified graphite felt as efficient catalyst
Herein, we present a bismuth-lead oxides (BiPbO x) co-modified graphite felt prepared by electrodeposition, which can be used as an efficient anode material for ICFB. The
A silver–bismuth bimetallic functionalized negative
The sluggish redox kinetics of chromium ions at the negative electrode have hindered the development of iron–chromium redox flow
Achieving superior electrode kinetics in bismuth-based liquid
In this study, we address this challenge by implementing an alloy cathode with a networked structure formed by liquid tin (Sn), which enhances electrochemical kinetics.
Aqueous multi-electron electrolyte for hybrid flow batteries with
Both criteria are crucial to improve the flexibility of cell design and widen the application potential. Herein, bismuth is pioneered as negative electrolyte (negolyte) for hybrid
Electrochemical Deposition of Bismuth on Graphite Felt
In this paper, bismuth (Bi) was successfully deposited on graphite felts to improve the electrochemical performances of vanadium redox flow batteries.