Publications by authors named "Zhenyang Jiao"
Article Synopsis
- Electrocatalytic CO reduction (eCOR) in acidic environments is a promising method for efficient CO utilization powered by renewable electricity, but is often hindered by competing hydrogen evolution reactions (HER).
- Using cobalt phthalocyanine/Ketjen black (CoPc/KB) catalysts, researchers investigated factors like active site density and operational current density that influence eCOR selectivity and performance.
- The optimal catalyst showed exceptional CO Faradaic efficiency and stability, with the presence of specific cations improving the electrostatic environment and preventing HER by altering interfacial water structure.
Wet-spinning is a promising strategy to fabricate fiber electrodes for real commercial fiber battery applications, according to its great compatibility with large-scale fiber production. However, engineering the rheological properties of the electrochemical active materials to accommodate the viscoelasticity or liquid crystalline requirements for continuous wet-spinning remains a daunting challenge. Here, with entropy-driven volume-exclusion effects, the rheological behavior of vanadium pentoxide (V O ) nanowire dispersions is regulated through introducing 2D graphene oxide (GO) flakes in an optimal ratio.
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