Decoupled hydrogen and oxygen production were successfully embedded into an aqueous
dual‐electrolyte (acid–base) battery for simultaneous energy storage and conversion. A …

The ability to reduce the energy consumed and the cost in water splitting is crucial for the
generation of hydrogen, which can be stored and then oxidized to deliver clean, abundant …

As an alternative to the photoelectrochemical water splitting for use in the fuel cells used to
generate electrical power, this study set out to develop a solar energy rechargeable battery …

Combining water electrolysis and rechargeable battery technologies into a single system
holds great promise for the co-production of hydrogen (H 2) and electricity. However, the …

The need for cost‐effective and sustainable power supplies has spurred a growing interest
in hybrid energy harvesting systems, and the most elementary energy production process …

H 2 gas is considered to be an ideal green energy carrier that can replace fossil fuels to
ameliorate the rapidly increasing global issues of energy crisis and environmental pollution …

Self-charging aqueous metal-based batteries are attracting extensive attention for use in
energy conversion and storage technologies. However, they are constrained to the …

To enable a future society based on sun and wind energy, transforming electricity into
chemical energy in the form of fuels is crucial. This transformation can be achieved in an …

The electrocatalytic splitting of water holds great promise as a sustainable and
environmentally friendly technology for hydrogen production. However, the sluggish kinetics …

Renewable energy-driven hydrogen production from electrocatalytic and photocatalytic
water splitting has been widely recognized as a promising approach to utilize green energy …