Electrochemical water splitting is a mature technology for hydrogen generation. Numerous
studies have focused on the development of highly efficient electrocatalysts to produce …

The energy efficiency of metal–air batteries and water‐splitting techniques is severely
constrained by multiple electronic transfers in the heterogenous oxygen evolution reaction …

Tuning the local reaction environment is an important and challenging issue for determining
electrochemical performances. Herein, we propose a strategy of intentionally engineering …

Modifying Pt surfaces by foreign metals with a higher oxophilicity is a promising approach to
improve the kinetics of hydrogen evolution and oxidation reactions. The role of foreign …

The application of renewable energy conversion devices is considered as one of the
effective ways to alleviate the energy shortage and environmental pollution. Designing …

Electrochemical water splitting plays a crucial role in the development of clean and
renewable energy production and conversion, which is a promising pathway to reduce …

The limitations of the Haber–Bosch reaction, particularly high-temperature operation, have
ignited new interests in low-temperature ammonia-synthesis scenarios. Ambient N2 …

Multimetallic alloy nanoparticles (NPs) have received considerable attention in various
applications due to their compositional variability and exceptional properties. However, the …

Clean and efficient energy storage and conversion via sustainable water and nitrogen
reactions have attracted substantial attention to address the energy and environmental …

Alkaline water splitting is an attractive method for sustainable hydrogen production. Owing to
the sluggish kinetics of alkaline water reduction and oxidation, it is crucial to understand the …