We report here that a bioinspired cobalt diimine–dioxime molecular catalyst for hydrogen
evolution immobilized onto carbon nanotube electrodes proves tolerant toward oxygen. The …

The viability of a hydrogen economy depends on the design of efficient catalytic systems
based on earth-abundant elements. Innovative breakthroughs for hydrogen evolution based …

Conspectus Mimicking photosynthesis and producing solar fuels is an appealing way to
store the huge amount of renewable energy from the sun in a durable and sustainable way …

The perspective of integrating molecular catalysts for hydrogen evolution into operating
devices requires the benchmarking of their activity preferentially in aqueous media. Within a …

Shifting electrochemical oxygen reduction towards 2e–pathway to hydrogen peroxide
(H2O2), instead of the traditional 4e–to water, becomes increasingly important as a green …

The active sites of hydrogenases have inspired the design of molecular catalysts for
hydrogen evolution and oxidation. In this feature article, we showcase key elements of bio …

A freestanding H2‐evolution electrode consisting of a copolymer‐embedded cobaloxime
integrated into a multiwall carbon nanotube matrix by π–π interactions is reported. This …

Water splitting is promising to realize a hydrogen‐based society. The practical use of
molecular water‐splitting catalysts relies on their integration onto electrode materials. We …

The development of highly active, cheap, and stable electrocatalysts for overall water
splitting is strategic for industrial electrolysis processes aiming to achieve sustainable …

Co (hydro) oxides show unsatisfactory catalytic activity for the hydrogen evolution reaction
(HER) in alkaline media, and it is thus highly desirable but still remains a challenge to …