Interface chemistry inevitably manipulates Li-dendrite and interfacial resistance, which pose serious challenges in solid-state Li-metal batteries. In the November issue of Chem, Wang and co-workers designed a thin, polymeric, fluoride-salt-concentrated interlayer as a precursor and template to form a stable, polymeric, LiF-rich solid-electrolyte interphase, thereby overcoming the above-mentioned issues

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This article has not yet been cited by other publications.

Science, Volume 374, Issue 6571, Page 1166-1166, November 2021.

Mechanism-based inactivation (MBI) can mediate adverse reactions and hepatotoxicity from drugs, which is a result of their conversion into highly reactive metabolites catalyzed by enzymes such as cytochrome P450 3A (CYP3A). In the present research, we optimized the key interaction domain of the fluorophore with the target protein to develop a two-photon fluorescent probe for CYP3A enzymes that are

Mitochondrial function in cells declines with aging and with neurodegeneration, due in large part to accumulated mutations in mitochondrial DNA (mtDNA) that arise from deficient DNA repair. However, measuring this repair activity is challenging. Here we employ a molecular approach for visualizing mitochondrial base excision repair (BER) activity in situ by use of a fluorescent probe ( UBER ) that reacts

Electroreduction of CO 2 on polymer-modified Cu-based catalyst has shown high multi-electron reduction (> 2e – ) selectivity, while most of the corresponding current densities are still too small to support industrial applications. In this work, we designed a poly(ionic liquid) (PIL)-based Cu(0)-Cu(I) tandem catalyst for producing C 2+ products with both high reaction rate and high selectivity. Remarkably