Liquid metal batteries with magnesium and antimony electrodes
Liquid metal batteries utilizing magnesium as the negative electrode and antimony as the positive electrode offer high energy density and efficiency. This electrode combination creates a
A fully self-breathing, liquid metal-fed, solid oxide cell for high
Here, we introduce a HTES approach based on a reversible solid oxide cell using liquid antimony (Sb) as fuel, operating at 700─750 °C. We design a full-liquid antimony electrode with a novel self
Electrochemical reduction engineering for composite Sb/Cu
The molten salt was transferred to an electrolysis furnace for electrochemical reduction. A three-electrode system was used under an argon atmosphere, heated to 450 °C. Pre-electrolysis
Antimony-batteries_jan2021
With conventional dry-cell battery using two electrodes separated by an electrolyte, it would require thousands of individual cells, the size of soft drink cans, to be strung together in a massive
Tellurium–Antimony Electrodes with Multistep Discharge Mechanisms
In this work, a metalloid dual-active Sb–Te alloy is designed as a positive electrode to improve the energy density of LMBs. Moreover, the multistep lithiation mechanisms of Sb–Te
Quantitative Synchrotron XRD and Cryogenic EXAFS Reveal the
Abstract The incorporation of trace amounts of Sb 2 O 3 into the positive electrode plate of lead–acid batteries effectively suppresses the softening and shedding of the active material, thereby extending
WO2025050459A1
The graphite contained in the antimony-containing negative-electrode active material can be used as a load for the antimony-carbon composite material, thereby further improving the...
Self-assembling solid Sb electrode enables high-capacity, low
Here, authors pair a Ca-based liquid metal negative electrode with a solid Sb positive electrode to achieve high capacity and low energy cost.
Evaluating a Dual-Ion Battery with an Antimony-Carbon Composite
In this work, antimony in the form of a composite with carbon (Sb−C) is evaluated as an anode material for DIB full cells for the first time.
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