近期,我校机械工程学院来华留学生Fazal Ul Nisa作为第一作者,我校何亮,北京理工大学代俊、Muhammad Tahir作为通讯作者,以“Functional nanostructures for supercapacitors: metal-ion modulation, interface engineering, and hybridization”为题,在Energy Storage Materials(一区Top期刊,影响因子20.2)上发表了综述论文,四川大学机械工程学院为该论文的第一单位。该论文系统梳理了超级电容器电极的研究进展,重点剖析了可提升电化学性能的电极微纳结构设计、制备合成及结构调控策略。
截至目前,该生以一作或共同一作在高水平期刊上发表了4篇文章,信息如下:
[1] Fazal Ul Nisa, Shahzad Ahmed, Muhammad Tahir, Liang He et al., Functional nanostructures for supercapacitors: metal-ion modulation, interface engineering and hybridization, Energy Storage Materials, 2026, 105272. (SCI, A级IF 20.2, Q1, ISSN: 2405-8297)
[2] Fazal ul Nisa, Muhammad Tahir, Liang He, Supramolecular Cross-Linking Enables Highly Stretchable and Ultrasensitive Polyurethane-Poly(3,4-ethylenedioxythiophene) Tactile Sensors, ACS Nano, 2025, 19(39): 35102-35118. (SCI, B级,IF 16.1, Q1, ISSN:1936-0851)
[3] Fazal ul Nisa, Muhammad Tahir, Shehroz Khalid, Naima Amin, Waheed Ahmad, Liang He, Revolutionizing Micro-scale Energy Storage by 0D Carbon Nanostructures: Synthesis, Integration, Performance Optimization Mechanisms and Sustainable Applications, Advanced Functional Materials, 2024, 35(13): 2418053. (SCI,B级,IF 19.0, Q1, ISSN:1616-301X)
[4] Wenwu Wang*, Fazal ul Nisa*, Zeyu Ma, Yihao Long, Zilu Hu, Yixin Wang, Fuhao Wu, Xiyao Huang, Huimin Liang, Yixiao Dong, Muhammad Tahir, Dan Lu, Liang He, Synergistic enhancement in β-phase content of all-nanofibrous Janus membrane with biofluid drainage toward self-powered biosensor applied in multi-modal dynamic healthcare monitoring [J]. Composites Part B: Engineering, 2025, 113203. (Co-First author) (SCI,B级,IF 14.2, Q1, ISSN:1359-8368)