Herein, ap–n junction composed of cobalt-based metal–organic frameworks (Co-MOFs) and
Fe2O3 has been designed to provide a strong built-in electric field (B-IEF) to enhance …

To simultaneously achieve low overpotentials and stable operation for water splitting at high
current densities, bifunctional electrocatalysts must be designed based on interfacial …

Rational design, controllable synthesis, and an in-depth mechanism study of Cu-based
bifunctional semiconductor heterostructures toward overall water splitting (OWS) are …

Metal–organic frameworks have garnered attention as highly efficient pre-electrocatalysts for
the oxygen evolution reaction (OER). Current structure–activity relationships primarily rely …

Constructing a heterojunction is vital to increase the performance of non-noble metal
catalysts for overall water splitting (OWS) at large current density. Herein, we synthesize a …

Rational design and controllable synthesis of transition metal multi-anionic structures to
cooperatively catalyze the hydrogen evolution reaction (HER) and the oxygen evolution …

A metal–organic framework (MOF) embedded by transition metal sulfide (TMS) particles is
one of the promising electrocatalyst candidates for overall water splitting (OWS) due to the …

Developing highly efficient and stable noble-metal-free electrocatalysts for water splitting is
critical for producing clean and sustainable energy. Here, we design a hierarchical transition …

Deliberate engineering of the structures and components of Metal–organic frameworks
(MOFs) can provide unlimited potential for developing efficient electrocatalysts for water …

Hydrogen production by electrochemical water splitting suffers from high kinetic barriers in
the anodic oxygen evolution reaction (OER), which limits the overall efficiency. Herein, we …