- ZnO Cu2S PN-junctions with built-in electric field for enhanced CO2 . . .
In this work, ZnO Cu 2 S PN-junctions with a built-in electric field were fabricated Kelvin probe force microscopy measurements confirmed that the presence of the built-in electric field facilitates the adsorption of more CO 2 molecules onto the catalyst surface
- Stretchable and self-healing 2,5-dihydroxy-1,4-benzoquinone . . .
The escalating demand for foldable and bendable electronic products underscores the pressing necessity for flexible energy storage devices that offer …
- Surface hydrophobic modification enhanced catalytic performance of . . .
Aerophilic and hydrophobic surface facilitates an efficient three-phase contact of N 2, H 2 O, and catalyst Thus, localized concentrated N 2 molecules can overcome the mass transfer limitation of N 2 and depress the HER due to lowering the proton contacts
- Solid-Diffusion Synthesis of Single-Atom Catalysts Directly from Bulk . . .
Herein, we demonstrate the solid-state diffusion between the N-doped carbon phase and bulk Ni metal can be utilized to synthesize hierarchical, self-supported, and atomistic catalyst
- In situ stabilization of Cu+ for CO2 Electroreduction via . . . - Nature
Ethanol production from CO2 electroreduction is hindered by poor carbon–carbon coupling and competing ethylene formation Here, the authors develop a ZnO1-x-shield copper catalyst that
- Photoelectrocatalytic Reforming of Polyol‐based Biomass into CO and H2 . . .
A wide range of biopolyols, such as ethylene glycol, xylose, fructose, glucose, sucrose, lactose, maltose, and inulin were effectively converted into CO and H 2 This work provides a promising method to produce highly pure H 2 together with CO from biomass
- Exceptional Electrochemical HER Performance with Enhanced Electron . . .
Herein, we propose a new method to control the electrocatalytic behavior of supported metal nanoparticles by dispersing single metal atoms on an O-doped graphene Ideal atomic metal species are firstly computationally screened
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