A5103115656- Electrocatalysts for Energy Conversion
- Advanced battery technologies research
- Advanced Photocatalysis Techniques
- Electrochemical Analysis and Applications
- Fuel Cells and Related Materials
- Wind and Air Flow Studies
- Energy Load and Power Forecasting
- MXene and MAX Phase Materials
- Ammonia Synthesis and Nitrogen Reduction
- Building Energy and Comfort Optimization
- Chalcogenide Semiconductor Thin Films
- Geological Modeling and Analysis
- Advanced Sensor and Energy Harvesting Materials
- Remote Sensing and Land Use
- Energy, Environment, Economic Growth
- Graphene research and applications
- Satellite Image Processing and Photogrammetry
- Supercapacitor Materials and Fabrication
- Advanced Image and Video Retrieval Techniques
- Copper-based nanomaterials and applications
- Advanced Memory and Neural Computing
- Air Quality and Health Impacts
- Advanced Neural Network Applications
- Multimodal Machine Learning Applications
- Refrigeration and Air Conditioning Technologies
Nanjing Normal University
2018-2024
Aerospace Information Research Institute
2024
Chinese Academy of Sciences
2024
Jinling Institute of Technology
2022-2024
Anhui University of Science and Technology
2024
Qingdao University of Technology
2024
Suzhou Research Institute
2020
Tianjin Normal University
2020
Soochow University
2020
Abstract The exploration of earth‐abundant and high‐efficiency bifunctional electrocatalysts for overall water splitting is vital importance the future hydrogen economy. Regulation electronic structure through heteroatom doping represents one most powerful strategies to boost electrocatalytic performance evolution reaction (HER) oxygen (OER). Herein, a rational design O‐incorporated CoP (denoted as O‐CoP) nanosheets, which synergistically integrate favorable thermodynamics modification...
Abstract Serious challenges in energy and the environment require us to find solutions that use sustainable processes. There are many electrocatalytic processes might provide answers above-mentioned challenges, such as oxygen reduction reaction (ORR), water splitting, carbon dioxide (CO 2 RR), nitrogen (NRR). These reactions can enhance value added by producing hydrogen through splitting or convert useless CO N into fuels NH 3 . be driven high-performance catalysts. Therefore, exploration of...
Abstract The rational design of ingenious strategies to boost the intrinsic activity and stability ruthenium (Ru) is great importance for substantial progression water electrolysis technology. Based on Mott–Schottky effect, electronic regulation within a metal/semiconductor hybrid electrocatalyst represents versatile strategy electrochemical performance. Herein, typical hydrogen evolution reaction (HER) composed uniform ultrafine Ru nanoclusters in situ anchored N‐doped carbon nanofibers...
Abstract Rational design and construction of oxygen reduction reaction (ORR) electrocatalysts with high activity, good stability, low price are essential for the practical applications renewable energy conversion devices, such as metal‐air batteries. Electronic modification through constructing metal/semiconductor Schottky heterointerface represents a powerful strategy to enhance electrochemical performance. Herein, we demonstrate concept electrocatalyst composed uniform Co nanoparticles in...
Abstract Searching for high‐efficiency nonprecious bifunctional electrocatalysts both hydrogen evolution reaction (HER) and oxygen (OER) is paramount the advancement of water electrolysis technologies associated renewable energy devices. Modulation electronic structure an electrocatalyst via heterointerface engineering represents efficient strategy to improve its electrocatalytic performance. Herein, a feasible hydrothermal synthesis novel heterostructured catalyst was demonstrated,...
Abstract The design of economical, efficient, and robust bifunctional oxygen electrocatalysts is greatly imperative for the large‐scale commercialization rechargeable Zn‐air battery (ZAB) technology. Herein, neoteric an advanced electrocatalyst composed CoN/Co 3 O 4 heterojunction hollow nanoparticles in situ encapsulated porous N‐doped carbon nanowires (denoted as HNPs@NCNWs hereafter) reported. simultaneous implementation interfacial engineering, nanoscale hollowing design, carbon‐support...
Two-stage remote sensing image captioning (RSIC) methods have achieved promising results by incorporating additional pre-trained tasks to extract supplementary information and improve caption quality. However, these face limitations in semantic comprehension, as detectors/classifiers are constrained predefined labels, leading an oversight of the intricate diverse details present images (RSIs). Additionally, handling auxiliary separately can introduce challenges ensuring seamless integration...
Abstract The ingenious modification of the hydrogen adsorption state ruthenium (Ru) for achieving high‐efficiency electrocatalytic performance is vital importance water electrolysis technology. Herein, a novel heterostructured catalyst composed highly dispersed ultrafine Ru nanoparticles immobilized on CoP nanosheet (denoted as Ru/CoP hereafter) developed through feasible “impregnation‐phosphorization” strategy. Experimental results and density functional theory (DFT) simulations...
A universal synthesis approach has been proposed to produce a series of well-defined Pd–pm (pm = Ga, In, Sn, Pb, Bi) alloy nanosheet assemblies.
Abstract Exploring efficient, affordable and stable electrocatalyst toward hydrogen evolution reaction (HER) is of great scientific significance for the practical implementation water splitting. The heteroatom doping represents a serviceable strategy to further elevate catalytic performance transition metal‐based because electronic regulation effect. Herein, reliable self‐sacrificial template‐engaged approach proposed synthesize O‐doped CoP (denoted as O‐CoP) microflowers, which...
Double electronic modification by Fe doping and interface engineering boosts the OER performance of Fe-doped CoSe 2 /Co 9 S 8 nanorod arrays.
Exploring efficient electrocatalysts for the formic acid oxidation reaction (FAOR) through dehydrogenation pathway is important widespread use of direct fuel cells (DFAFCs). The pathway, reactivity...
We present a topological conversion method to prepare O-incorporated CoP (O-CoP) nanorods. Due the 1D structure and incorporated O atoms, O-CoP-3 nanorods exhibit superior electrocatalytic performance towards HER.
Fe-Doped Co-tannic acid nanoflowers with the modified electronic structure exhibit excellent oxygen evolution performance.
Ni-doped Co 3 S 4 hollow and porous nanoflowers are synthesized via a self-sacrificial reactive template-engaged strategy. The obtained sample with optimal electronic structure exhibits excellent oxygen evolution performance.
Abstract The endowment of metal organic frameworks (MOF) with superior electrocatalytic performance without compromising their structural/compositional superiorities is great significance for the development renewable energy devices, yet remains a grand challenge. Herein, deliberate partial amorphization strategy developed to construct heterostructured electrocatalyst consisting crystalline Co‐MOF and amorphous Co‐S nanoflake arrays aligned on carbon cloth (CC) substrate (abbreviated as...
Urea-assisted water electrolysis possesses the prospective prospect for high-efficiency hydrogen production by replacing oxygen evolution reaction (OER) with thermodynamically more favorable urea oxidation (UOR). Modulating electronic structure of electrocatalysts through constructing metal-semiconductor heterointerface represents an effective strategy to promote electrochemical performances. Herein, we construct a Mott-Schottky bifunctional electrocatalyst in-situ growth NiS/MoS 2...