任秀艳
教授
-
[11] 任秀艳,【SCI通讯】Tough, Anti-Freezing and Non-Drying Double Network Gels.Materials Today Communications,2019:1
-
[12] 任秀艳,【SCI通讯】Conductive Organohydrogels with Ultrastretchability, Antifreezing, Self-Healing, and Adhesive Properties for Motion Detection and Signal Transmission.ACS Appl. Mater. Interfaces,2019:1
-
[13] 任秀艳,【SCI通讯】Regulatable Thermochromic Hydrogels via Hydrogen Bonds Driven by Potassium Tartrate Hemihydrate.ACS Sustainable Chem. Eng.,2019:1
-
[14] 任秀艳,【SCI通讯】Tough, adhesive and conductive polysaccharide hydrogels mediated by ferric solution.Carbohydrate Polymers,2019:1
-
[15] 任秀艳,【SCI通讯】Cartilage-inspired hydrogel strain sensors with ultrahigh toughness, good self-recovery and stable anti-swelling properties.Journal of Materials Chemistry A,2019:1
-
[16] 任秀艳,【SCI通讯】Ultrastretchable Wearable Strain and Pressure Sensors Based on Adhesive, Tough, and Self-healing Hydrogels for Human Motion Monitoring.ACS Applied Materials & Interfaces,2019(11):1
-
[17] 任秀艳,【SCI通讯】Salt-inactive hydrophobic association hydrogels with fatigue resistant and self-healing properties.polymer,2018,150:1
-
[18] 任秀艳,【SCI通讯】Joint double-network hydrogels with excellent mechanical performance.polymer,2018,153:1
-
[19] 任秀艳,【SCI通讯】Highly Mechanical and Fatigue-Resistant Double Network Hydrogels by Dual Physically Hydrophobic Association and Ionic Crosslinking.Macromolecular Materials and Engineering,2018,303:1
-
[20] 任秀艳,【SCI通讯】Enhancing the self-recovery and mechanicalproperty of hydrogels by macromolecularmicrospheres with thermal and redox initiation.ASC Advans,2017:1