[01126616]高性能纳米复合物理交联水凝胶的研究

通过本项目资助发表的论文 1. Han, L., He, Y., An, R., Wang, X., Zhang, Y., Shi, L., Ran, R. （2019）. Mussel-inspired, robust and self-healing nanocomposite hydrogels: Effective reusable absorbents for removal both anionic and cationic dyes. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 569, 18-27. 2. An, R., Zhang, X., Han, L., Wang, X., Zhang, Y., Shi, L., ＆ Ran, R. （2020）. Healing, flexible, high thermal sensitive dual-network ionic conductive hydrogels for 3D linear temperature sensor. Materials Science and Engineering: C, 107, 110310. 3. Zhang, Y., Li, Y., Chen, K., Ma, Z., Wang, X., Shi, L., ＆ Ran, R. （2019）. Body temperature triggered customized patterned thermo-sensitive hydrogel for information storage and display. Polymer, 179, 121637. 4. Zhang, Y., Chen, K., Li, Y., Lan, J., Yan, B., Shi, L. Y., ＆ Ran, R. （2019）. High-strength, Self-healable, Temperature-sensitive, MXene-containing Composite Hydrogel as a Smart Compression Sensor. ACS applied materials ＆ interfaces. 5. Peng, Y., Yan, B., Li, Y., Lan, J., Shi, L., ＆ Ran, R. （2020）. Antifreeze and moisturizing high conductivity PEDOT/PVA hydrogels for wearable motion sensor. Journal of Materials Science, 55（3）, 1280-1291. 6. Li, Y., Lan, J., Yan, B., Zhang, Y., Shi, L., ＆ Ran, R. （2019）. Hydrogel-based temperature sensor with water retention, frost resistance and remoldability. Polymer, 122027. 7. Linglin Han, Mengfei Liu, Bin Yan, YueShan Li, Ji Lan, Lingying Shi and Rong Ran*, Polydopamine/polystyrene nanocomposite double-layer strain sensor hydrogel with mechanical, self-healing, adhesive and conductive properties,Materials Science and Engineering: C , Materials Science and Engineering: C, 2020, 109: 110567.