Efficient electrocatalytic reduction of CO2 to CO over Ni/Y diatomic catalysts

This Green Processing and Synthesis research examines Ni/Y diatomic catalysts for the #Electrocatalytic reduction of CO2, highlighting how dual-metal sites optimize selectivity and activity for #CarbonMonoxide production.

#OpenAccess: doi.org/10.1515/gps-...

Recovery of doped nickel hydroxides from metal-smelting wastewater for #electrocatalytic upcycling of waste polyester A one-step electrodeposition strategy directly converts metal-laden wastewater into a high-performance NiCoFe hydroxide catalyst, enabling efficient upgrading of PET waste into formate. This “waste-to-resource” approach provides a sustainable solution for both metal recovery and plastic valorization. The methodology integrates the recovery and functionalization of waste metals in a single platform, offering potential for use in diverse fields, including energy conversion and environmental remediation.

Online Now: Recovery of doped nickel hydroxides from metal-smelting wastewater for #electrocatalytic upcycling of waste polyester #catalysis

A comprehensive review has been summarized by a team of researchers and has published in eScience detailing how in situ EC-SERS enables unprecedented mechanistic understanding of electrocatalytic reactions.
#electrocatalytic
Details: doi.org/10.1016/j.esci.2024.100352

Bismuth-based catalysts for #electrocatalytic CO2 reduction to formate in aqueous media This review highlights key strategies to develop efficient bismuth-based electrocatalysts and attempts to build effective electrochemical systems with them, giving a comprehensive presentation of this representative type of formic acid-production catalyst from the fundamental mechanistic advances to their industrial implementation potential, which offers insights into advancing CO2-to-HCOOH conversion toward carbon-neutral technologies.

Online Now: Bismuth-based catalysts for #electrocatalytic CO2 reduction to formate in aqueous media #catalysis

Catalysts for electrocatalytic dechlorination of chlorinated aromatic hydrocarbons: synthetic strategies, applications, and challenges Electrocatalytic hydrodechlorination (EHDC) is a promising technology for degrading chlorinated aromatic hydrocarbons (CAHs), offering high efficiency…

Catalysts for #electrocatalytic dechlorination of chlorinated #aromatic hydrocarbons: synthetic strategies, applications, and challenges www.sciencedirect.com/science/arti...

Accelerating the reconstruction of NiSe2 by Co/Mn/Mo doping for enhanced urea electrolysis As a highly promising renewable energy technology, the urea oxidation reaction (UOR) not only enables efficient utilization of urea wastewater but als…

The doping of Co, Mn and Mo in both cubic and orthorhombic #NiSe2 crystal phases significantly enhances the #electrocatalytic efficiency of the #UOR by modulating the electronic structure and optimizing surface active sites. www.sciencedirect.com/science/arti...

Decoupling size and surface effects of intermetallic CuPd nanocrystals for #electrocatalytic nitrate reduction to ammonia Modulating the crystal structure, size, and morphology of CuPd nanocrystals reveals the critical role of the intermetallic CuPd (100) surface facet in catalyzing the conversion of nitrate to ammonia. This study offers key insights into structure-property relationships, advancing the design of nanocrystal catalysts for sustainable ammonia production and nitrogen-cycle remediation.

Online Now: Decoupling size and surface effects of intermetallic CuPd nanocrystals for #electrocatalytic nitrate reduction to ammonia #catalysis

Electrochemical Degradation of Plastic Waste Coupled with Hydrogen Evolution in Seawater Using Rosette‐Like High‐Entropy Oxides Rosette-like high-entropy NiCoFeMnAlOx enable the electrochemical degradation of PGA plastic waste in seawater, coupling glycolic acid oxidation with hydrogen evolution. Abundant OH* species lower en....

🚨Check out our recent work with Prof Kai Yan of Sun-Yat-sen University published in Advanced Science. Anodic #electrocatalytic degradation of #plastic waste over high‐entropy oxides increases the #energy efficiency for H2 #electrolysers.

advanced.onlinelibrary.wiley.com/doi/10.1002/...

#chemsky

Catalysts for electrocatalytic dechlorination of chlorinated aromatic hydrocarbons: synthetic strategies, applications, and challenges Electrocatalytic hydrodechlorination (EHDC) is a promising technology for degrading chlorinated aromatic hydrocarbons (CAHs), offering high efficiency…

#Catalysts for #electrocatalytic dechlorination of chlorinated aromatic hydrocarbons: synthetic strategies, applications, and challenges www.sciencedirect.com/science/arti...

#COC #EHDC