Fangqing Wang
YOU?
Author Swipe
View article: Engineering oxygen nonbonding states in high entropy hydroxides for scalable water oxidation
Engineering oxygen nonbonding states in high entropy hydroxides for scalable water oxidation Open
The lattice oxygen oxidation mechanism typically requires the removal of electrons from the metal-oxygen band, which may cause structural instability due to a decrease in the metal-oxygen bond order. To address this challenge, we introduce…
View article: Activating lattice oxygen in high-entropy LDH for robust and durable water oxidation
Activating lattice oxygen in high-entropy LDH for robust and durable water oxidation Open
The oxygen evolution reaction is known to be a kinetic bottleneck for water splitting. Triggering the lattice oxygen oxidation mechanism (LOM) can break the theoretical limit of the conventional adsorbate evolution mechanism and enhance th…
View article: Activating Lattice Oxygen in High-Entropy LDH for Robust and Durable Water Oxidation
Activating Lattice Oxygen in High-Entropy LDH for Robust and Durable Water Oxidation Open
The oxygen evolution reaction (OER) is known to be a kinetic bottleneck for water splitting. Triggering the lattice oxygen oxidation mechanism (LOM) can break the theoretical limit of the conventional adsorbate evolution mechanism (AEM) an…
View article: Modulating Electronic Structure of Atomically Dispersed Nickel Sites through Boron and Nitrogen Dual Coordination Boosts Oxygen Reduction
Modulating Electronic Structure of Atomically Dispersed Nickel Sites through Boron and Nitrogen Dual Coordination Boosts Oxygen Reduction Open
Atomically dispersed 3D transitional metal active sites with nitrogen coordination anchored on carbon support have emerged as a kind of promising electrocatalyst toward oxygen reduction reaction (ORR) in the field of fuel cells and metal–a…