国际期刊论文选

^#co-first author, *corresponding author

[1] Yang Yang, Hiroaki Sai, Simon Egner, Ruomeng Qiu, Liam C. Palmer, and Samuel I. Stupp*. Peptide Programming of Supramolecular Vinylidene Fluoride Ferroelectric Phases. Nature, 634, 833–841, 2024. (Highlighted by Science：Science, 2024, ‘Electric plastic’ could open door to new generation of implants and wearable tech; Northwestern Now, Bloomberg, Phys.org)

[2] Yang Yang, Hiroaki Sai, Simon Egner, Ruomeng Qiu, Liam C. Palmer, Samuel I. Stupp*. Reply to: Inconclusive Proof of Ferroelectricity in Peptide-VDF Ribbons. Nature, 644, E4-E6, 2025.

[3] Yang Yang, Jinliang He*, Qi Li*, Lei Gao, Jun Hu, Rong Zeng, Jian Qin, Shan X. Wang, and Qing Wang*. Self-healing of electrical damage in polymers using superparamagnetic nanoparticles. Nature Nanotechnology, 14, 151-155, 2019. (Highlighted by: Tsinghua Spotlights, AZoNano)

[4] Yang Yang^#, Chuang Li^#, Liam C. Palmer, and Samuel I. Stupp*. Autonomous robotic functions via photo-regulated electroactive hydrogels, Science Advances, 9, eadi4566, 2023. (Highlighted by Nature Reviews Materials: Nat. Rev. Mater., 8, 640, 2023; Phys.org, The Science Times)

[5] Lei Gao^#, Yang Yang^#, Jiaye Xie^#, Shuai Zhang, Jun Hu, Rong Zeng, Jinliang He*, Qi Li*, Qing Wang*. Autonomous self-healing of electrical degradation in polymers using in-situ electroluminescence. Matter, 2, 451-463, 2020. (Highlighted by Matter: Matter, 2(2), 288-289, 2020)

[6] Yang Yang, Zhi-Min Dang, Qi Li*, and Jinliang He*. Self-healing of electrical damage in polymers. Advanced Science, 7, 2002131, 2020. (Cover Article)

[7] James V. Passarelli^#, Yang Yang^#, Cara S. Smith, Jing Hao, Dhwanit R. Dave, Ashwin Narayanan, Zaida Alvarez, Ivan Fithian, Hiroaki Sai, Ruomeng Qiu, Charlotte L. Stern, Liam C. Palmer, Samuel I. Stupp*. Peptide-induced ferroelectricity in charge-transfer supramolecular materials. Advanced Materials, 38 e14940, 2026.

[8] Yang Yang, Lei Gao, Jiaye Xie, Yao Zhou, Jun Hu, Qi Li*, and Jinliang He*. Defect-targeted self-healing of multiscale damage in polymers. Nanoscale, 12, 3605-3613, 2020. (Cover Article)

[9] Yang Yang, Jun Hu, and Jinliang He, Mesoporous nano-silica serves as the degradation inhibitor in polymer dielectrics. Scientific Reports, 6, 28749, 2016.

[10] Yang Yang, Jinliang He, Guangning Wu and Jun Hu. "Thermal stabilization effect" of Al₂O₃ nano-dopants improves the high-temperature dielectric performance of polyimide. Scientific Reports, 5, 16986, 2015.

[11] Jing Hao, Yang Yang*, Xiangdong Xu. FDS-Based Study of Space-Charge Polarization in Transformer Oil with Experiment-Driven Simulation. IEEE Transactions on Dielectrics and Electrical Insulation, 2026.

[12] Yuanyuan Li, Yang Yang*, Shuangshuang Yan, Zhipeng Lei, Meiqing Guo. Mitigation of Electrical Treeing at High Temperature in Nano-SiO₂ Doped Epoxy Resin. High Voltage, 8, 640-649, 2023.

2. 授权专利

[1] 何金良; 杨洋; 胡军; 具有抑制电树枝生长能力的聚合物/纳米介孔复合材料, 2021-10-26, 中国发明专利, CN201610081293.X

[2]何金良; 胡军; 杨洋; 高雷; 张帅; 一种磁致发热自修复热塑型纳米复合材料, 2017-03-29, 中国发明专利, CN201510609524.5

[3]何金良; 胡军; 杨洋; 张波; 余占清; 非侵入式高压输电电缆在线自动维护和缺陷修复系统, 2017-06-23, 中国发明专利, CN201510492765.6