Recent progress of metal single-atom catalysts for energy applications
Single-atom catalysts (SACs) have received tremendous attention in heterogeneous
catalysis because of their excellent catalytic performance and robust stability. Metal SACs …
catalysis because of their excellent catalytic performance and robust stability. Metal SACs …
Summary and application of Ni-based catalysts for electrocatalytic urea oxidation
K Yang, L Hao, Y Hou, J Zhang, JH Yang - International Journal of …, 2024 - Elsevier
At present, energy shortage and environmental pollution are becoming more and more
serious. If environmental governance and energy supply can be combined, it will be more …
serious. If environmental governance and energy supply can be combined, it will be more …
Boosting the electrocatalytic urea oxidation performance by amorphous–crystalline Ni-TPA@ NiSe heterostructures and mechanism discovery
Develo** cost-effective electrocatalysts and elucidating the in situ catalytic mechanism of
the urea oxidation reaction (UOR) is a cornerstone for develo** urea-based technology …
the urea oxidation reaction (UOR) is a cornerstone for develo** urea-based technology …
Advanced Mott-Schottky heterojunction of semi-conductive MoS2 nanoparticles/metallic CoS2 nanotubes as an efficient multifunctional catalyst for urea-water …
Metallic CoS 2 has attracted considerable interest for the catalysis of electrochemical
reactions; however, its catalytic activity is still lower than that of commercial novel metal …
reactions; however, its catalytic activity is still lower than that of commercial novel metal …
Cobalt single atom anchored on N-doped carbon nanoboxes as typical single-atom catalysts (SACs) for boosting the overall water splitting
Single-atom catalysts (SACs) are considered one of the promising strategies to achieve
efficient energy conversion, due to their advantage of both maximum atomic utilization and …
efficient energy conversion, due to their advantage of both maximum atomic utilization and …
Cobalt phosphide integrated manganese-doped metallic 1T-vanadium disulfide: Unveiling a 2D-2D tangled 3D heterostructure for robust water splitting
The rational integration of a 2D layered transition metal sulfide and phosphide in a single
heterostructure can bring a breakthrough to produce hydrogen through controlled …
heterostructure can bring a breakthrough to produce hydrogen through controlled …
Markedly enhanced hydrogen production in wastewater via ammonia-mediated metal oxyhydroxides active sites on bifunctional electrocatalysts
The ability to substitute oxygen evolution reaction (OER) in water splitting with ammonia
oxidation reaction (AOR) represents an important endeavor in producing high-purity …
oxidation reaction (AOR) represents an important endeavor in producing high-purity …
Single-atom iridium-based catalysts: synthesis strategies and electro (photo)-catalytic applications for renewable energy conversion and storage
Develo** renewable energy-related technologies, which are strongly dependent on
various catalytic processes, has recently attracted enormous attention to overcome the ever …
various catalytic processes, has recently attracted enormous attention to overcome the ever …
Manganese‐Doped Bimetallic (Co,Ni)2P Integrated CoP in N,S Co−Doped Carbon: Unveiling a Compatible Hybrid Electrocatalyst for Overall Water Splitting
Rational design of highly efficient noble‐metal‐unbound electrodes for hydrogen and
oxygen production at increased current density is crucial for robust water‐splitting. A facile …
oxygen production at increased current density is crucial for robust water‐splitting. A facile …
Atomically dispersed Pt single sites and nanoengineered structural defects enable a high electrocatalytic activity and durability for hydrogen evolution reaction and …
The scarcity and high cost of PGM electrocatalysts are the key bottleneck in the mass-scale
commercialization of many electrolysis technologies. Bifunctional single-atom …
commercialization of many electrolysis technologies. Bifunctional single-atom …