Nature Catalysis
@NatureCatalysis
Nature Catalysis publishes high quality work across all areas of catalysis, including both fundamental and applied studies.
Biomimetic aldol reaction of glycinate bit.ly/45hwqOi
A copper enzyme for Lewis acid biocatalysis bit.ly/450Kmei
Tethered oxygen turns methane into methanol bit.ly/4lLIRIc
Cobalt hydride-mediated photocatalytic semihydrogenation of acetylene impurities for continuous-flow production of polymer-grade ethylene bit.ly/46SfCyE
Selective electrooxidation of 5-hydroxymethylfurfural at pilot scale by engineering a solid polymer electrolyte reactor bit.ly/44RKEEl
Controlling hydrocarbon chain growth and degree of branching in CO2 electroreduction on fluorine-doped nickel catalysts bit.ly/4m3ym2x
Radical S-adenosyl-l-methionine FeS cluster implicated as the sulfur donor during albomycin biosynthesis bit.ly/4nQE2OY
Boron clusters as efficient shuttles for electrocatalytic deuterium labelling via radical H/D exchange bit.ly/44wKmUl
Enantioselective Pd-catalysed nucleophilic C(sp3)–H (radio)fluorination bit.ly/4nEz7Rc
Unveiling the reconstruction of copper bimetallic catalysts during CO2 electroreduction bit.ly/44xifV2
Reticular copper dual sites embedded with semiconductor particles for selective CO2-to-C2H4 photoreduction bit.ly/4ePc6qY
Ligand binding to a Ni–Fe cluster orchestrates conformational changes of the CO-dehydrogenase–acetyl-CoA synthase complex bit.ly/44PhBBo
Asymmetric biomimetic aldol reaction of glycinate enables highly efficient synthesis of chiral β-hydroxy-α-amino acid derivatives bit.ly/4kwpIIQ
Unlocking Lewis acid catalysis in non-haem enzymes for an abiotic ene reaction bit.ly/44MGsGX
Steering oxygen-centred radicals with ground-state ene-reductases for enantioselective intermolecular hydroalkoxylations bit.ly/44qVCQU
High-selectivity room-temperature partial oxidation of methane to methanol enabled by electrochemical oxygen promotion on IrO2 catalysts bit.ly/4eyDRUv
