Dongyang Chen

TL;DR: In this paper, a self-template strategy was developed to synthesize hollow Fe-doped CoP prisms (Fe-CoP) via ion exchange of cobalt acetate hydroxide with [Fe(CN)6]3- and phosphorization-induced transformation of CoFe-PBA (Co/Fe-containing prussian blue analogue) prisms in N2 atmosphere.

TL;DR: A molecular structural modification of perylene imides, a promising class of redox-active electrode materials, for improved battery performance through the simultaneous incorporation of two electron-withdrawing carbonyl groups and extension of the π system, which is supposed to favor high specific capacity, operating voltage, and electronic conductivity in lithium batteries.

TL;DR: In this paper, densely quaternized anion exchange membranes based on quaternary ammonium functionalized octa-benzylmethyl-containing poly(fluorenyl ether ketone)s (QA-OMPFEKs) were prepared from the condensation polymerization of a newly developed octa-, bisphenol-, and bromination at the benzylmethyl sites using N-bromosuccinimide and trimethylamine.

TL;DR: In this article, an effective strategy is proposed to deposit carbon nanoparticles on graphite felts by hydrothermal carbonization method, which minimizes the drop off and aggregation of carbon particles during electrochemical testing, and a new electrode that combines the outstanding electrical conductivity of felts with the effective redox active sites provided by the HTC coating layer.

TL;DR: The anions in electrolytes are the carriers of lithium ions for lithium-organic redox flow batteries and the interactions between the electrolyte anions and electron-deficient redox-active organic molecules have strong influences on the battery properties due to the anion-π-induced formation of radical anions or sandwich-like aggregation.