A5100386652- Advanced Sensor and Energy Harvesting Materials
- Conducting polymers and applications
- Supercapacitor Materials and Fabrication
- MXene and MAX Phase Materials
- Advanced Battery Materials and Technologies
- Advanced battery technologies research
- Advancements in Battery Materials
- Advanced Memory and Neural Computing
- Graphene and Nanomaterials Applications
- Physical Unclonable Functions (PUFs) and Hardware Security
- Advanced Materials and Mechanics
- Tactile and Sensory Interactions
- Diamond and Carbon-based Materials Research
- Integrated Circuits and Semiconductor Failure Analysis
- Transition Metal Oxide Nanomaterials
- Electrochemical sensors and biosensors
- Ion-surface interactions and analysis
- Gas Sensing Nanomaterials and Sensors
- Perovskite Materials and Applications
- Luminescence and Fluorescent Materials
- Graphene research and applications
- Electrocatalysts for Energy Conversion
- Solar-Powered Water Purification Methods
- Metal and Thin Film Mechanics
- Electromagnetic wave absorption materials
University of Science and Technology Beijing
2024-2025
Chongqing University of Technology
2025
Sichuan University
2025
Anhui University of Science and Technology
2021-2024
Shenzhen Institutes of Advanced Technology
2024
Chinese Academy of Sciences
2024
Soochow University
2020-2024
Yanshan University
2024
King Abdullah University of Science and Technology
2024
National University of Singapore
2011-2023
Zn metal anode has garnered growing scientific and industrial interest owing to its appropriate redox potential, low cost, high safety. Nevertheless, the instability of caused by dendrite formation, hydrogen evolution, side reactions greatly hampered commercialization. Herein, an in situ grown ZnSe overlayer is crafted over one commercial foil via chemical vapor deposition a scalable manner, aiming achieve optimized electrolyte/Zn interfaces with large-scale viability. Impressively,...
Protective clothing plays a vital role in safety and security. Traditional protective can protect the human body from physical injury. It is highly desirable to integrate modern wearable electronics into traditional protection suit endow it with versatile smart functions. However, still challenging through practical approach while keeping intrinsic flexibility breathability of textiles. In this work, we realized direct writing laser-induced graphene (LIG) on Kevlar textile air demonstrated...
Abstract Separator modification has recently blossomed as an effective strategy to enable dendrite‐free Zn metal anodes. Nonetheless, the explored avenues are not conducive mass production by far, and little attention is paid essence of separator regulation. Herein, a scalable Ti 3 C 2 T x MXene‐decorated Janus designed spray‐printing MXene nanosheets over one side commercial glass fibre (GF). The thus‐derived MXene‐GF affords abundant surface polar groups, good electrolyte wettability, high...
MXenes are an emerging class of highly conductive two-dimensional (2D) materials with electrochemical storage features. Oriented macroscopic Ti3C2Tx fibers can be fabricated from a colloidal 2D nematic phase dispersion. The layered ideal candidates for constructing high-speed ionic transport channels to enhance the capacitive charge performance. In this work, we assemble high degree flake orientation by wet spinning process controlled speeds and morphology spinneret. addition effects...
Abstract Scaling the synergistic properties of MXene nanosheets to microporous aerogel architectures requires effective strategies overcome nanosheet restacking without compromising MXene's advantageous properties. Traditional assembly approaches 3D aerogels normally involve external binders/templates and/or additional functionalization, which sacrifice electrical conductivities and electrochemical activities aerogels. Herein, inspired by hierarchal scale textures Phrynosoma cornutum , a...
Emerging soft exoskeletons pose urgent needs for high-performance strain sensors with tunable linear working windows to achieve a high-precision control loop. Still, the state-of-the-art require further advances simultaneously satisfy multiple sensing parameters, including high sensitivity, reliable linearity, and ranges. Besides, wireless system is highly desired enable facile monitoring of exoskeleton in real time, but rarely investigated. Herein, Ti3C2Tx MXene systems were fabricated by...
The Li-S battery has emerged as a promising next-generation system for advanced energy storage. Notwithstanding the recent progress, problematic polysulfide shuttling, retarded sulfur redox, and low output of volumetric capacity remain daunting challenges toward its practicability. In response, this work demonstrates herein universal approach to in situ craft MOx-MXene (M: Ti, V, Nb) heterostructures heavy multifunctional hosts harvest good performances with synchronous immobilization...
Bacterial resistance toward antibiotics is a world-wide problem, and one potential solution to fight against the develop multi-mechanism antimicrobial agents achieve synergistic performance. Titanium carbide (MXene) an emerging 2D nanomaterial with ability physically damage bacterial membrane chemically induce oxidative stress, it can be further conjugated nanomaterials improve its antibacterial Herein, agent developed through conjugation of ultra-small gold nanoclusters (AuNCs) on MXene...
Abstract Microsupercapacitors (MSCs) with neutral multivalent electrolytes are safer, cheaper, and exhibit higher theoretical energy densities compared the MSCs acidic alkaline electrolytes. Multivalent charge carriers (e.g., Mg 2+ , Zn ) in Ti 3 C 2 T x MXene electrodes have not been demonstrated, which could theoretically achieve specific capacitances densities. However, because of larger size carriers, require further modifications to facilitate reversible electrochemical reactions....
Wet-spinning is a promising strategy to fabricate fiber electrodes for real commercial battery applications, according its great compatibility with large-scale production. However, engineering the rheological properties of electrochemical active materials accommodate viscoelasticity or liquid crystalline requirements continuous wet-spinning remains daunting challenge. Here, entropy-driven volume-exclusion effects, behavior vanadium pentoxide (V2 O5 ) nanowire dispersions regulated through...
Soft robots provide compliant object-machine interactions, but they exhibit insufficient material stability, which restricts them from working in harsh environments. Herein, we developed a class of soft robotic skins based on two-dimensional materials (2DMs) and gelatin hydrogels, featuring skin-like multifunctionality (stretchability, thermoregulation, threat protection, strain sensing). The 2DM-integrated hydrogel (2DM/H) enabled to execute designated missions the presence high levels heat...
Li metal is regarded as one of the most promising anodes for next‐generation rechargeable batteries. Nonetheless, infinite volume change and severe dendrite growth impede its practicability. To date, unremitting efforts have been devoted to stabilizing anode via rational design 3D current collectors. In this sense, optimizing nucleation behavior plays a pivotal role in alleviating formation. Herein, practically viable route devised by situ crafting lithiophilic CuSe granules on dealloyed Cu...
Abstract Continuous monitoring of human sweat, which enables highly sensitive multiple biomarkers analysis with a portable power supply, is increasingly desired for the remote healthcare industry. Smart fibers on‐demand functionality are ideal candidates fabricating noninvasive and conformal bioelectronic devices owing to their considerable flexibility. Herein, multifunctional textile patch based on reduced graphene oxide (rGO)/tetra‐aniline (TANi) fiber simultaneous biomarker energy supply...
Abstract Developing high‐performance nanofluidic fibers with synergetic ionic and electric conductivities is promising for human–machine interface interaction. In such a scenario, inter‐ intra‐forces in constituent flakes are recognized as crucial factors determining the derived fiber performance. this work, rheological properties of Ti 3 C 2 T x MXene solution systematically optimized by regulating electrostatic interaction via introducing multivalent metal cations. As result, cations...
Because of the rapid evolution wearable devices, great effort has been devoted to widely developing flexible strain sensors, as one most important components. However, realizing low-cost, large-scale manufacturing sensor with a wide response range and excellent sensitivity remains difficult date. Chinese art paper (CAP), significant cultural heritage, is processed product biological materials prepared from plant fibers that can be considered nonwoven type film. Herein, we show outstanding...
Abstract Stretchable energy storage devices have become indispensable components toward autonomy for wearable electronic, implantable medical devices, and untethered soft machines. A Zn‐based battery with a neutral electrolyte could act as competitive candidate wearable/implantable electronics because of its intrinsic safety high density. Therefore, it is highly desired to develop synergistic combination stretchable anodes/cathodes electrolytes batteries. Herein, scalable fabrication process...
Physical unclonable function (PUF) is a cornerstone of anticounterfeiting. However, conventional PUF key-based secure tags encounter several bottlenecks, such as complicated manufacturing, specialized and tedious readout, long authentication time, insufficient stability. Here, we utilize various two-dimensional materials (2DMs), including Ti3C2Tx MXene graphene oxide, to construct multigenerational microstructures patterns. Two intermediate treatments, cation intercalation moisture-induced...