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姓名:俞世雄 职称:讲师 部门:化学与环境工程学院 地址:芜湖市北京中路2号楼高分子教研室 邮编:241000 Email:sxyu@ahpu.edu.cn |
学习工作经历: 2020.09-2024.06南开大学材料物理与化学,博士(导师:马儒军 教授) 2017.09-2020.06天津大学材料工程,硕士(导师:鲁从华 教授) 2013.09-2017.06徐州工程学院高分子材料,学士 开设课程:高分子合成工艺学 研究方向: 1.固-固,固-液界面传热理论及功能性热界面材料的研究 3 个人热管理织物 获奖情况: 天津市三好学生;南开大学优秀共产党员 代表性论文: 1.Yu S., Li L., Wang J., Liu E., Zhao J., Xu F., Cao Y., Lu C. Light-Boosting Highly Sensitive Pressure Sensors Based on Bioinspired Multiscale Surface Structures.Adv. Funct. Mater.30, 1907091 (2020). (第一作者;IF=19.97;中科院一区top) 2. Zhao J., Lu H., Zhang Y.,Yu S., Malyi, O. I., Zhao X., Wang L., Wang H., Peng J., Li X., Zhang Y., Chen S., Pan H., Xing G., Lu C., Tang Y., Chen X. Direct Coherent Multi-Ink Printing of Fabric Supercapacitors.Sci. Adv.7, eabd6978 (2021). (共一作者;IF=14.97;中科院一区top) 3.Yu S., Zhang Q., Wang Y., Lv Y., Ma R. Photonic-Structure Colored Radiative Coolers for Daytime Subambient Cooling.Nano Lett.22, 4925-4932 (2022). (共一作者;IF=12.26;中科院一区top) 4.Yu S., Zhang Q., Liu, L., Ma, R. Thermochromic Conductive Fibers with Modifiable Solar Absorption for Personal Thermal Management and Temperature Visualization.ACS Nano17,20299–20307(2023).(共一作者;IF=17.1中科院一区top). 5. Zhang Q.†, Lv Y.†, Wang Y.,Yu S., Li C., Ma R., Chen Y. Temperature-Dependent Dual-Mode Thermal Management Device with Net Zero Energy for Year-Round Energy Saving.Nat. Commun.13, 4874 (2022). (参与作者;IF=17.69;中科院一区top) 6.Zhang Q.†, Wang Y.†, Lv Y.,Yu S., Ma R. Bio-Inspired Zero-Energy Thermal Management Device Based on Visible and Infrared Thermochromism for All-Season Energy Saving.Proc. Natl. Acad. Sci. U. S. A.119, e2207353119 (2022). (参与作者;IF=12.77;中科院一区top) 7. Liu E., Zhang X., Ji H., Li Q., Li L., Wang J., Han X.,Yu S., Xu F., Cao Y., Lu C. Polarization-Dependent Ultrasensitive Dynamic Wrinkling on Floating Films Induced by Photo-Orientation of Azopolymer.Angew. Chem. Int. Ed.61, e202203715 (2022). (参与作者;IF=16.82;中科院一区top) 8. Li L., Zheng Y., Liu E., Zhao X.,Yu S., Wang J., Han X., Xu F., Cao Y., Lu C., Gao H. Stretchable and Ultrasensitive Strain Sensor Based on A Bilayer Wrinkle-Microcracking Mechanism.Chem. Eng. J.437, 135399 (2022). (参与作者;IF=16.74;中科院一区top) |
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