Flexible Nanocomposite Conductors for Electromagnetic Interference Shielding
Guozhen SHEN, Chinese Academy of Sciences, Beijing, CAS, State Key Laboratory for Superlattices and Microstructures
Chemically modified carbon nanostructures and 2D nanomaterials for fabrics performing under operational tension and extreme environmental conditions - Materials Horizons (RSC Publishing) DOI:10.1039/D1MH01077H
Highly sensitive piezoresistive and thermally responsive fibrous networks from the in situ growth of PEDOT on MWCNT-decorated electrospun PU fibers for pressure and temperature sensing
Caffeic acid induced in-situ growth of AgNWs on cotton fabric for temperature and pressure sensing and electrical interference shielding - ScienceDirect
Soft conductive nanocomposites for recording biosignals on skin
Highly sensitive piezoresistive and thermally responsive fibrous networks from the in situ growth of PEDOT on MWCNT-decorated electrospun PU fibers for pressure and temperature sensing
Developing a highly-conductive and strength cotton yarn through dual shell architecture of graphene for smart wearable devices - ScienceDirect
Progress in surface and interlayer distance modulated 2D Ti3C2 MXenes for potential flexible supercapacitors: A review - ScienceDirect
Bioinspired Superhydrophobic and Durable Octadecanoic Acid/Ag Nanoparticle-Decorated Rubber Composites for High-Performance Strain Sensors
A polyester/spandex blend fabrics-based e-textile for strain sensor, joule heater and energy storage applications - ScienceDirect
High Durability and Waterproofing rGO/SWCNT-Fabric-Based Multifunctional Sensors for Human-Motion Detection
Study on application of reduced Graphene Oxide on cotton fabric for Breathable Waterproof finish - Textile School
