Hydrogen energy-based electrochemical energy conversion technologies offer the promise
of enabling a transition of the global energy landscape from fossil fuels to renewable energy …

MXenes have been extensively studied due to their high metallic conductivity, hydrophilic
properties, tunable layer structure and attractive surface chemistry, making them highly …

The rapid progress of proton exchange membrane fuel cells (PEMFCs) and alkaline
exchange membrane fuel cells (AMFCs) has boosted the hydrogen economy concept via …

Anion exchange membrane fuel cells are limited by the slow kinetics of alkaline hydrogen
oxidation reaction (HOR). Here, we establish HOR catalytic activities of single-atom and …

The realm of alkaline-based fuel cells has with the arrival of anionic exchange membrane
fuel cells (AEMFCs) taken a great step to replace traditional liquid electrolyte alkaline fuel …

The burgeoning field of anion-exchange membrane fuel cells (AEMFCs) presents a
promising avenue to circumvent the reliance on scarce and costly Pt-based catalysts …

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 …

The anion-exchange-membrane fuel cell (AEMFC) is an attractive and cost-effective energy-
conversion technology because it can use Earth-abundant and low-cost non-precious metal …

Next-generation energy technologies have captured increasing research interest because of
their fascinating advantages, yet the implementation of such technologies requires efficient …

Designing low-cost, high-efficiency, platinum-free electrocatalysts for the hydrogen oxidation
reaction (HOR) in an alkaline electrolyte is of great importance for the development of anion …