The Central Role of Nitrogen Atoms in a Zeolitic Imidazolate Framework‐Derived Catalyst for Cathodic Hydrogen Evolution

Abstract: Platinum usually offers the most effective active center for hydrogen evolution reaction (HER), because of the optimal trade‐off between the adsorption and desorption of hydrogeN atoms (H*) on Pt atoms. Herein, we report an unusual result regarding the active center of a HER catalyst, which was synthesized by electrodepositing traces of Pt nanoparticles (NPs) into a porous nitrogen‐rich dodecahedron matrix derived from zeolitic imidazolate framework ZIF‐8. With an ultra‐low Pt loading of 2.76 μg cm−2, the N‐Pt… Show more

“…6). Moreover, the N atom is rich in lone pair electrons and easily serves as the electron donor to be protonated 20 . The well-aligned broad peak between the in situ UV-vis spectrum and calculation unveiled the protonation of PN.…”

Continuous multivariate conversion processes for stabilized anode in aqueous zinc-ion battery

“…6). Moreover, the N atom is rich in lone pair electrons and easily serves as the electron donor to be protonated 20 . The well-aligned broad peak between the in situ UV-vis spectrum and calculation unveiled the protonation of PN.…”

Continuous multivariate conversion processes for stabilized anode in aqueous zinc-ion battery

In situ formation of a nickel-iron-sulfur bifunctional catalyst within a porous polythiophene coating for water electrolysis

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