We develop smart fabrics by electrospinning crystallinity-modified self-healing materials, which are facilitated by the reversible physical crosslinking between poly(vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP)ionic liquid. The fiber morphology can be maintained without losing the fibrous structure. The fabrics can achieve the healing effects without the need of seamingany adhesive. The fabrics are waterproofbreathable. By printing electrically conductive channels using ionic liquid, capacitive pressure sensorsresistive tensile sensor arrays are fabricated.

A novel “Platform Technology” in surgical hemostasis, based on biodegradable polyurethane particles with anti-inflammatory and nerve repair, not only accelerates wound healing but also provides solutions for hemostasis during surgery, and improve biocompatibility and adverse of commercially hemostats to achieve the best patient care. Our first product is aimed to provide a hemostatic agent, use on the bleeding surface and deep, with additional functions to surgeons, which allows customers to shorten the operation time, reduce stay in the hospital, and reduce the chance of secondary surgery.

The International Center for Wound RepairRegeneration of National Cheng Kung University transferredestablished Ducolege Biotechnology Co., Ltd., using Extre2Cold exclusive extraction technology to extract highly active marine collagen from Tilapia fish skin, which is type I collagen with a complete molecular structurehas a three-stranded helix structure. It is biologically activeperfectly presents the magical ability of fish skin to repair wounds. It can be widely used in biomedical materialsacademic research. It is currently first promoted in the development of high-level medical beauty repairmaintenance products, which is helpful for repairing damaged skin.

"1. New method to prepare (3S, 3’S)astaxanthin, with high yield, high stabilityharmless to organism 2. The method has variety of biological activities anti-oxidation, anti-agingpromote damage tissue repair 3. It has anti-cancer potential, especially effective against metastatic cancer cells 4. Applied as Multifunctional medical supplies, functional foods, functional drinks, cosmeticsmaintenance products"

We developed Polypyrrole (PPy) based NIR-photothermal related platform technologies. This photothermal driving hyperthermia carrier systems are biocompatible are able to possess versatile functions in anticancer, antibacterial, thrombolysis, wound-healingsuppression of inflammation related bioengineering potential applications. These innovative works shed light on the efficacy of combining photothermal-performance with translational manner in biomedical, clinicalindustrial designs.

Image that your cell phone can be self-poweredable to self-healing after damagerobots in Sci-fi movie have self-poweredself-healable skins. Here, we present the first energy-harvesting triboelectric artificial skin that is entirely, intrinsically,autonomously self-healablesimultaneously highly transparentextraordinarily stretchableable to drive via self-generating

Conventional buildings use beambrace members to dissipate seismic energy. However, these members may cause residual deformation of buildings under large earthquakes, which affects the building seismic performanceincreases the difficulty of reuse after earthquakes. Therefore, a novel earthquake-resisting member "Dual-Core Self-Centering Brace, DC-SCB” was developed. The DC-SCB uses tendons to provide the elastic restoring forcea friction devicesteel bars to provide energy dissipation so that the building can return to the original position after major earthquakes. The DC-SCB significantly reduces the residual deformationrepair cost of the building after earthquakes, also reducing the large lateral displacementcollapse of the building.

Directly writing 3D structures into supporting mediums is a relatively new developing technology. The liquid-like solid (LLS) materials are developed as supporting mediums, that possesses the self-healing ability and tunable yield stress. Because the components of this emulsion glass are mostly water and oil, it exhibits chemical stability when exposed to UV radiation and high temperature. Based on the above features, this emulsion glass can be regarded as a new kind of LLS material for supporting mediums.

The aim of this study was to develop of high safety, high performance sulfide-based all-solid-state Li-ion battery (ASSLIB). The ASSLIB composes of a flexible, high ionic conductive,moisture insensitive sulfide-based solid-state electrolyte (SSE) film, Si/C composite anode material with self-healing polymer binder, high capacity LiNi0.8Co0.1Mn0.1O2 (NMC811) composite cathode,garnet-in-polymer solid composite interlayer to prevent decomposition of sulfide-based SSE with electrode materials.