A5059099744- Advanced Sensor and Energy Harvesting Materials
- Conducting polymers and applications
- Membrane Separation Technologies
- Surface Modification and Superhydrophobicity
- Supercapacitor Materials and Fabrication
- MXene and MAX Phase Materials
- Nanomaterials and Printing Technologies
- Advanced Materials and Mechanics
- Thermal Radiation and Cooling Technologies
- Solar-Powered Water Purification Methods
- Graphene research and applications
- Advanced Thermoelectric Materials and Devices
- Advanced Memory and Neural Computing
- Aerogels and thermal insulation
- Energy Harvesting in Wireless Networks
- Gas Sensing Nanomaterials and Sensors
- Tactile and Sensory Interactions
- Quantum-Dot Cellular Automata
- Advanced Battery Materials and Technologies
- Thermoregulation and physiological responses
- Dielectric materials and actuators
- Textile materials and evaluations
- Modular Robots and Swarm Intelligence
- Additive Manufacturing and 3D Printing Technologies
- Air Quality Monitoring and Forecasting
Qingdao University
2020-2025
Tiangong University
2016-2019
Wearable electronics have enriched daily lives by providing smart functions as well monitoring body health conditions. However, the realization of wearable with personal healthcare and thermal comfort management human is still a great challenge. Furthermore, manufacturing such on-skin on traditional thin-film substrates results in limited gas permeability inflammation. Herein, we proposed textile three-dimensional (3D) interconnected conductive network, formed silver nanowires (AgNWs)...
Abstract With the emergence and development of smart wearable electronics healthcare systems, strong demands for energy saving effective personal thermoregulation have attracted great attentions. In order to prevent thermal runaway realize human comfort during long‐term wear that closely contact skin, management is emerging as an important strategy regulate balance heat exchange between body surrounding environments. Smart fibers textiles with light weight, mechanical flexibility, multiple...
The emerging smart fibers and textiles have been regarded as ideal building blocks to weave flexible wearable electronics, which hold great promise in the upcoming artificial intelligence (AI) Internet of Things (IoT) era.
Electronic waste (E-waste) contain large environmental contaminants such as toxic heavy metals and hazardous chemicals. These would migrate into drinking water or food chains pose a serious threat to environment human health. Biodegradable green electronics has great potential address the issue of E-waste. Here, we report on novel biodegradable flexible transparent electrode, integrating three-dimensionally (3D) interconnected conductive nanocomposites edible starch–chitosan-based...
Flexible transparent electrodes demand high transparency, low sheet resistance, as well excellent mechanical flexibility simultaneously, however they still remain to be a great challenge due to"trade-off" effect. Herein, inspired by hollow interconnected leaf vein, we developed robust conductive mesh with biomimetic interwoven structure via hierarchically self-assembles silver nanowires metal carbide/nitride (MXene) sheets along directional microfibers. Strong interfacial interactions...
Abstract Whereas thermal comfort and healthcare management during long‐term wear are essentially required for wearable system, simultaneously achieving them remains challenge. Herein, a highly comfortable breathable smart textile personal is developed, via assembling stimuli‐responsive core–sheath dual network that silver nanowires(AgNWs) core interlocked graphene sheath induced by MXene. Small MXene nanosheets with abundant groups proposed as novel “dispersant” to according “like dissolves...
Whereas cotton as an abundant natural cellulose has been widely used for sustainable and skin-friendly textiles clothes, developing fabrics with smart functions that could respond to various stimuli is still eagerly desired while remaining a great challenge. Herein, multiresponsive fabric hierarchically copper nanowire interwoven MXene conductive networks are seamlessly assembled along 3D woven template efficient personal healthcare thermal comfort regulation successfully developed. The...
Ultrathin 2D membranes were assembled by graphene and MXene nanosheets for separation to overcome the “trade-off” limitation between permeability selectivity.
For the scalable fabrication of transparent electrodes and optoelectronic devices, excellent adhesion between conductive films substrates is essential. In this work, a novel mussel-inspired polydopamine-functionalized graphene/silver nanowire hybrid nanomaterial for was fabricated in facile manner. Graphene oxide (GO) functionalized reduced by polydopamine while remaining stable water without precipitation. It shown that GO (PFGO) film adhered to substrate much more easily uniformly than...
One-dimensional fibrous electronics has become one of the most important building blocks for weaving flexible and stretchable electronic devices, which holds great potential in practical wearable applications to weave a magnificent world.