A5101726973- Advancements in Battery Materials
- Advanced Battery Materials and Technologies
- Supercapacitor Materials and Fabrication
- Advanced battery technologies research
- Advanced Battery Technologies Research
- Extraction and Separation Processes
- Atomic and Subatomic Physics Research
- Cold Atom Physics and Bose-Einstein Condensates
- Graphene research and applications
- Conducting polymers and applications
- Semiconductor Lasers and Optical Devices
- Advanced Frequency and Time Standards
- Polyoxometalates: Synthesis and Applications
- Quantum optics and atomic interactions
- Thermodynamic properties of mixtures
- MXene and MAX Phase Materials
- Ionic liquids properties and applications
- Advanced materials and composites
- Thermal Expansion and Ionic Conductivity
- Advanced Sensor and Energy Harvesting Materials
- Advanced Control Systems Optimization
- High-Temperature Coating Behaviors
- Urban Heat Island Mitigation
- Advanced Multi-Objective Optimization Algorithms
- Advanced Fiber Laser Technologies
Soochow University
2025
Nanchang University
2013-2024
Donghua University
2023-2024
Academia Sinica
2012
Andong National University
2012
BASF (Germany)
2010
Korea Advanced Institute of Science and Technology
1999
Centre National de la Recherche Scientifique
1993-1994
Laboratoire Aimé Cotton
1991-1994
Université Paris Cité
1994
Abstract Man‐made superhydrophobic membranes are of interest for various applications in energy, environment, and medical fields. However, simultaneously achieving durable superhydrophobicity, robust waterproofness, high breathability the is still challenging. Herein, an efficient powerful strategy reported to create with perdurable liquid repellency via combining humidity‐induced electrospinning coat‐crosslinking technology. The micro/nano rough structure situ constructed based on...
Binary nickel cobaltite oxides intimately standing on nitrogen-doped reduced graphene sheets are prepared utilizing a one-step hydrothermal synthesis.
Exploring efficient electrocatalysts for lithium-sulfur (Li-S) batteries is of great significance the sulfur/polysulfide/sulfide multiphase conversion. Herein, we report nickel-iron intermetallic (Ni3Fe) as a novel electrocatalyst to trigger highly polysulfide-involving surface reactions. The incorporation iron into cubic nickel phase can induce strong electronic interaction and lattice distortion, thereby activating inferior Ni catalytically active Ni3Fe phase. Kinetics investigations...
It is very important to develop ideal electrocatalysts accelerate the sulfur redox kinetics in both discharging and charging processes for high-performance lithium-sulfur batteries. Herein, defect-rich cation-doped V2O5 yolk-shell microspheres are reported as a catalytic host of sulfur. The doping W or Mo cations induces no impurities, broadens lattice spacing V2O5, enriches oxygen vacancy defects. Thus, doped affords sufficient active sites chemically anchoring polysulfides promising effect...
Smart membranes with protection and thermal-wet comfort are highly demanded in various fields. Nevertheless, the existing suffer from a tradeoff dilemma of liquid resistance moisture permeability, as well poor thermoregulating ability. Herein, novel strategy, based on synchronous occurrence humidity-induced electrospinning electromeshing, is developed to synthesize dual-network structured nanofiber/mesh for personal management. Manipulating ejection, deformation, phase separation spinning...
Plasmonic photocatalysis enabled by the unique localized surface plasmon resonance represents a promising approach for efficient solar energy conversion. Elucidating distinct plasmonic catalytic mechanisms and quantification of their effect is crucial yet highly challenging, due to complex synergistic nature. Herein, we achieve differentiation thermal as well various non-thermal reaction in prototypical Au-[Fe(bpy)3]2+ antenna-reactor photocatalysts using water splitting test reaction....
The exploration of efficient host materials sulfur is significant for the practical lithium-sulfur (Li-S) batteries, and hosts are expected to be highly conductive high utilization exhibit strong interaction toward polysulfides suppress shuttle effect long-lasting cycle stability. Herein, we propose a simple synthesis metallic cobalt-embedded N-doping carbon nanotubes (Co@NCNT) as "two-in-one" Li-S batteries. In binary host, N-doped CNTs, cooperating with Co nanoparticles, can serve 3D...
The efficient exploitation and utilization of low-cost biomass-derived carbon materials will play an active role in developing sustainable energy storage systems. However, the difficult morphology control incomplete activation limits their pervasive application electrochemical storage. Inspired by famous Chinese folk handicraft sugar-figure blowing, aerogels (GCA) with 2 D graphene-like thin nanosheets were fabricated a simple chemical blowing strategy from viscous agaric solution obtained...
Biomass-inherited metal oxide/carbon composites have been utilized as competitive materials of supercapacitor electrodes owing to the hierarchical structures, fast regeneration rate, and easy synthesis. However, low content agglomeration oxides are contradictory issues be addressed for their practical applications. In this work, manganese monoxide/biomass-inherited porous carbon (MnO/BPC) nanostructure with high MnO (∼75%) uniform distribution prepared through a simple immersion-calcination...
Heterojunction structures as an advanced strategy may promote the synergistic effect of different component materials; rational design heterojunctions allows them to exhibit various advantages when applied lithium–sulfur batteries. Hollow CoSn(OH)6 was used a precursor, and polyacrylonitrile PAN sulfur powder were raw materials. N-doped carbon nanofiber-encapsulated CoS2/SnS2 heterostructured materials CoS2/SnS2@CNFs prepared by electrostatic spinning technique in situ vulcanization battery...
The slow redox kinetics of lithium–sulfur batteries severely limit their application, and sulfur utilization can be effectively enhanced by designing different cathode host materials. Herein, we report the hollow porous nanofiber LaNi0.6Co0.4O3 as a bidirectional material for batteries. After Co is substituted into LaNiO3, oxygen vacancies are generated to enhance conductivity enrich active sites material, electrochemical reaction rate further accelerated synergistic catalytic ability Ni...
We report an experimental observation of coherent population transfer in a multilevel system by adiabatic following through trapped state. Raman transitions between ground-state sublevels are induced two partially overlapping ${\mathrm{\ensuremath{\sigma}}}^{\ifmmode\pm\else\textpm\fi{}}$ polarized laser beams, tuned to the hyperfine transition F=4\ensuremath{\rightarrow}F'=4 cesium ${\mathit{D}}_{2}$ line. An efficiency more than 50% is observed for...
Biomass-derived carbon composites (e.g., metal oxide/biocarbon) have been used as promising electrode materials for energy storage devices owing to their natural abundance and simple preparation process. However, low loading content/inhomogeneous distribution of oxides inefficient cracking biocarbon (BC) are intractable obstacles that impede the efficient utilization biomass. In this work, hierarchical porous MnO/BC were prepared by a facile molten-salt-assisted strategy based on superior...