With the potential to circumvent the need for scarce and cost-prohibitive platinum-based
catalysts in proton-exchange membrane fuel cells, anion-exchange membrane fuel cells …

Rational design of highly active transition-metal phosphides for electrocatalyzing overall
water splitting in a wide pH range assisted by first-principle calculations can efficiently save …

The application of anion exchange membrane fuel cells is hampered by the development of
highly efficient and earth-abundant anode hydrogen oxidation reaction (HOR) catalysts …

Hydroxide exchange membrane fuel cells (HEMFCs) have the advantages of using cost-
effective materials, but hindered by the sluggish anodic hydrogen oxidation reaction (HOR) …

Ag is a potential low-cost oxygen reduction reaction (ORR) catalyst in alkaline condition,
which is important for the zinc-air batteries. Here, we report that an Ag based single atom …

Understanding the electrode–water interface structure in acid and alkali is crucial to
unveiling the underlying mechanism of pH-dependent hydrogen oxidation reaction (HOR) …

The impeded mass transfer rate by on-site-generated gas bubbles at both cathode and
anode dramatically reduces the energy conversion efficiency of the proton exchange …

The metal-nitrogen-carbon (MNC) type oxygen reduction reaction (ORR) catalysts are
promising for hydroxide exchange membrane fuel cells, but catalysts with further improved …

The development of highly efficient catalysts for hydrogen oxidation/evolution reactions
(HOR/HER) is an urgent requirement for the acceleration of the development of fuel cells …

In view of the continuously worsening environmental problems, fossil fuels will not be able to
support the development of human life in the future. Hence, it is of great importance to work …