Interface engineering for photoelectrochemical oxygen evolution reaction
Photoelectrochemical (PEC) water splitting provides a promising approach for solving
sustainable energy challenges and achieving carbon neutrality goals. The oxygen evolution …
sustainable energy challenges and achieving carbon neutrality goals. The oxygen evolution …
Carbothermal shock synthesis of high entropy oxide catalysts: dynamic structural and chemical reconstruction boosting the catalytic activity and stability toward oxygen …
Mixed transition‐metals (TM) based catalysts have shown huge promise for water splitting.
Conventional synthesis of nanomaterials is strongly constrained by room‐temperature …
Conventional synthesis of nanomaterials is strongly constrained by room‐temperature …
A review on the recent developments in zirconium and carbon-based catalysts for photoelectrochemical water-splitting
In the recent years, considerable interest in the development of clean and renewable
alternative energy resources has been observed to overcome the problems of dwindling …
alternative energy resources has been observed to overcome the problems of dwindling …
Unveiling the optimal interfacial synergy of plasma‐modulated trimetallic Mn‐Ni‐Co phosphides: Tailoring deposition ratio for complementary water splitting
Designing highly active, durable, and nonprecious metal‐based bifunctional electrocatalysts
for overall water electrolysis is of urgent scientific importance to realize the sustainable …
for overall water electrolysis is of urgent scientific importance to realize the sustainable …
Facile surface treatment of industrial stainless steel waste meshes at mild conditions to produce efficient oxygen evolution catalysts
Herein, the ability to convert waste stainless steel (SS) 316L meshes into highly efficient and
durable oxygen evolution reaction (OER) catalysts is demonstrated. The process involves …
durable oxygen evolution reaction (OER) catalysts is demonstrated. The process involves …
Pulsed light synthesis of high entropy nanocatalysts with enhanced catalytic activity and prolonged stability for oxygen evolution reaction
The ability to synthesize compositionally complex nanostructures rapidly is a key to high‐
throughput functional materials discovery. In addition to being time‐consuming, a majority of …
throughput functional materials discovery. In addition to being time‐consuming, a majority of …
Ge-doped ZnO nanorods grown on FTO for photoelectrochemical water splitting with exceptional photoconversion efficiency
In this study, a considerable effort has been devoted for the synthesis of Ge-doped ZnO
nanorods on FTO as an efficient and robust photoanode material for solar water splitting. A …
nanorods on FTO as an efficient and robust photoanode material for solar water splitting. A …
Exceptional long-term stability of titanium oxynitride nanoparticles as non-carbon-based electrodes for aerated saline water capacitive deionization
Carbon-based capacitive deionization (CDI) electrodes suffer from long-lasting stability
challenges due to sets of parasitic side reactions, including the high oxidation rate of the …
challenges due to sets of parasitic side reactions, including the high oxidation rate of the …
Preparation of ZrLDH-based 3D microspheres for phosphate recovery
F Tang, H Yang, H Chen, M Zhou, P Huang… - Journal of …, 2022 - Elsevier
Phosphorus is one of key nutrients for plant growth and the main ingredient in phosphate
fertilizer, while it is abundant in wastewater as contaminant. Here, in order to recycle …
fertilizer, while it is abundant in wastewater as contaminant. Here, in order to recycle …
Microbial fuel cells with enhanced bacterial catalytic activity and stability using 3D nanoporous stainless steel anode
The activity and stability of the anode biofilm control the produced power by microbial fuel
cells (MFCs). In this study, 3D nanoporous stainless steel (SS) was used as an anode …
cells (MFCs). In this study, 3D nanoporous stainless steel (SS) was used as an anode …