A5101537675- Supercapacitor Materials and Fabrication
- Advanced Photocatalysis Techniques
- Advanced battery technologies research
- Advanced Sensor and Energy Harvesting Materials
- Metallurgical Processes and Thermodynamics
- Electrocatalysts for Energy Conversion
- CO2 Reduction Techniques and Catalysts
- Catalytic Processes in Materials Science
- Conducting polymers and applications
- Building Energy and Comfort Optimization
- Membrane Separation and Gas Transport
- Carbon Dioxide Capture Technologies
- Air Quality Monitoring and Forecasting
- Cellular Automata and Applications
- Pharmaceutical and Antibiotic Environmental Impacts
- Wind and Air Flow Studies
- Catalysis and Oxidation Reactions
- Neural Networks and Applications
- Advanced Sensor and Control Systems
- Gas Sensing Nanomaterials and Sensors
- Energy Load and Power Forecasting
- Chaos-based Image/Signal Encryption
- Rough Sets and Fuzzy Logic
- Mathematical and Theoretical Epidemiology and Ecology Models
- Nuclear Engineering Thermal-Hydraulics
Northeastern University
2024
Hebei University
2022-2024
University of California, San Diego
2024
Shandong University of Technology
2023
Guangxi University
2023
Jilin University
2019-2022
Jilin Medical University
2019
Hydrogels construct 3D ion channels in water-in-salt electrolytes to fully integrate ionic conductivity, rate performance, capacity, safety and multifunctionality.
Flexible strain sensors are attracting enormous attention due to their high stretchability and sensitivity that required for wearable devices electronic skin. However, diverse application environments require materials whose hardness can be adjusted satisfy different demands. Herein, we developed a synergistic dual network hydrogel PANI-P(AAm-co-AA)@Fe3+ composed of an iron-coordinated poly(acrylamide-co-acrylic acid) conductive polyaniline with adjustable mechanical properties sensitivity....
The scalable artificial photosynthesis composed of photovoltaic electrolysis and photothermal catalysis is limited by inefficient CO 2 hydrogenation under weak sunlight irradiation. Herein, NiO nanosheets supported with Ag single atoms [two-dimensional (2D) Ni 1 0.02 O ] are synthesized for to achieve 1065 mmol g −1 hour production rate 1-sun This performance attributed the coupling effect Ag-O-Ni sites enhance weaken adsorption, resulting in 1434 yield at 300°C. Furthermore, we integrate 2D...
The combination of hollow spherical Cu 0.15 Mn Ce 0.7 O x and a photothermal device showed 3.5 mmol g −1 h ambient sunlight-driven CB combustion.
This paper addresses the challenge of estimating heat transfer coefficients (HTCs) through measured surface temperatures under large interference in secondary cooling zone (SCZ) continuous casting processes. Conventional methods for calculating HTCs, typically reliant on temperature data, face significant challenges achieving accuracy. These primarily stem from limitations inherent traditional methodologies and distortions caused by outliers, which are a consequence interference. To address...
Reverse water gas shift (RWGS) reaction is an intriguing strategy to realize carbon neutrality, however, the endothermic process usually needs high temperature that supplied by non-renewable fossil fuels, resulting in secondary energy and environmental issues. Photothermal catalysis are ideal substitutes for conventional thermal catalysis, providing efficiency achievable. Two-dimensional (2D) materials highly active as RWGS catalysts, their industrial application restricted preparation cost....
Herein, NiO nanosheets supported with Ag single atoms are synthesized for photothermal CO2 hydrogenation to achieve 1065 mmol g$^{-1}$ h$^{-1}$ of CO production rate under 1 sun irradiation, revealing the unparalleled weak sunlight driven reverse water-gas shift reaction (RWGS) activity. This performance is attributed coupling effect Ag-O-Ni sites enhance CO$_2$ and weaken adsorption, resulting in 1434 yield at 300$^\circ$ C, surpassing any low-temperature RWGS performances ever reported....