In the context of global carbon dioxide increasing drastically, renewable energy is crucial
maintain the economic growth of the world. Hydrogen has attracted considerable attention …

The need for sustainable energy sources is now more urgent than ever, and hydrogen is
significant in the future of energy. However, several obstacles remain in the way of …

The development of an efficient catalyst for formic acid electrocatalytic oxidation reaction
(FAEOR) is of great significance to accelerate the commercial application of direct formic …

Pd-based catalysts are crucial in direct formate fuel cells owing to their high stability and
selectivity for the formate oxidation reaction (FOR) to CO2, avoiding carbonaceous …

Functional nucleic acid (FNA) nanotechnology is an interdisciplinary field between nucleic
acid biochemistry and nanotechnology that focuses on the study of interactions between …

Formic acid is a liquid, safe, and energy-dense carrier for fuel cells. Above all, it can be
sustainably produced from the electroreduction of CO2. The formic acid market is currently …

Recently, infectious diseases caused by bacterial pathogens have become a major cause of
morbidity and mortality globally due to their resistance to multiple antibiotics. This has …

Challenges in direct catalytic oxidation of biomass-derived aldehyde and alcohol into acid
with high activity and selectivity hinder the widespread biomass application. Herein, we …

Unique layered and heterostructured Pd/PdWCr nanosheet‐assembled flowers (L‐
Pd/PdWCr) are successfully synthesized, resulting in the most negative onset potential (up …

Direct formic acid fuel cells have attracted significant attention because of their low fuel
crossover, high safety, and high theoretical power density among all the proton-exchange …