Molecular engineering of a zinc battery co-solvent improves plating stability, suppresses side reactions, and delivers near-perfect efficiency through a single functional group substitution.
Tech Xplore on MSN
Dual-salt electrolyte enables aqueous zinc batteries to retain 93% capacity after 900 charging cycles
A team of University of Adelaide researchers are exploring ways to create a safer and more sustainable battery for electric ...
Interesting Engineering on MSN
Salt electrolyte helps aqueous zinc batteries achieve 93% capacity stability
The Decoupled Dual-Salt Electrolyte works by assigning specialized roles to two different zinc salts: zinc perchlorate and ...
A safer, cheaper, and more environmentally friendly battery may soon be possible thanks to new research from the. Scientists ...
South African Food Review on MSN
Zinc protects steel in South African construction
The building and construction industry forms the backbone of engineering growth in South Africa and across Africa. It supports crucial infrastructure like rail networks and underpins vital economic ...
A team of engineers at Monash University has made a major breakthrough that could transform the future of clean energy ...
This paper reports fast and efficient chemical decontamination of water within a tree-branched centimeter-scale microfluidic reactor. The microreactor integrates Zinc oxide nanowires (ZnO NWs) in situ ...
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