Nanosheets: Gas–Liquid Cold Plasma for Synthesizing Copper Hydroxide Nitrate Nanosheets with High Adsorption Capacity (Adv. Mater. Interfaces 24/2016)

Abstract: In article 1600760, Lanbo Di and his co‐workers report a facile, fast and environmentally friendly gas‐liquid plasma method for synthesizing Cu2(OH)3NO3 nanosheets for the first time. The reaction process just takes 12 min, using Cu(NO3)2 aqueous solution without any other chemical agents. By controlling the plasma energy, high‐pure Cu2(OH)3NO3 nanosheets with high adsorption capacity were obtained.

“…After increasing Pd and Pt concentrations to 2 mM, the metal NPs still showed small sizes and no XRD signals, as reported in previous works [23,28]. The electrons in plasma have significant influence on the surface property of metal species [33][34][35][36]. The XPS is employed to characterize the chemical environment of metal species of the nanofilms ( Fig.…”

Electron-induced rapid crosslinking in supramolecular metal-peptide assembly and chemically responsive disaggregation for catalytic application

“…After increasing Pd and Pt concentrations to 2 mM, the metal NPs still showed small sizes and no XRD signals, as reported in previous works [23,28]. The electrons in plasma have significant influence on the surface property of metal species [33][34][35][36]. The XPS is employed to characterize the chemical environment of metal species of the nanofilms ( Fig.…”

Electron-induced rapid crosslinking in supramolecular metal-peptide assembly and chemically responsive disaggregation for catalytic application