Perovskite-Type Solid Solution Nano-Electrocatalysts Enable Simultaneously Enhanced Activity and Stability for Oxygen Evolution
Perovskite-Type Solid Solution Nano-Electrocatalysts Enable Simultaneously Enhanced Activity and Stability for Oxygen Evolution
Active Site Engineering in Porous Electrocatalysts
Optimization of Active Sites via Crystal Phase, Composition and Morphology for Efficient Low-Iridium Oxygen Evolution Catalysts
Transition-Metal-Boron Intermetallics with Strong Interatomic d-sp Orbital Hybridization for High-Performance Electrocatalysis
Promoting Subordinate, Efficient Ruthenium Sites with Interstitial Silicon for Pt‐Like Electrocatalytic Activity
High-Performance Oxygen Evolution Electrocatalysis by Boronized Metal Sheets with Self-Functionalized Surfaces
Activating Inert, Nonprecious Perovskites with Iridium Dopants for Efficient Oxygen Evolution Reaction under Acidic Conditions
Revealing activity trends of metal diborides toward pH-universal hydrogen evolution electrocatalysts with Pt-like activity