Research at FAST

Institute of Textiles & Clothing Institute of Textiles & Clothing 171 Qualification BEng (XJTU) PhD (XJTU) ORCID ID 0000-0002-1277-8747 Representative Publications • Advanced Materials. 2020 , 1907948(7pp) • Nano Energy. 2020 , 74, 104856(11pp) • Nano Energy. 2020 , 70, 104516(13pp) • Nano Energy. 2019 , 58, 365-374 • Small. 2019 , 15(25), 1901313 (9pp) • Nano-Micro Letters. 2019 , 11, 89 (14pp) • ACS Applied Materials & Interfaces. 2019 , 11(2), 2120-2129 • Journal of Power Sources. 2019 , 420, 82-87 • Advanced Materials. 2018 , 30(26), 1800075(8pp) • Small. 2018 , 14(21), 1704373 (10pp) • Nano Research. 2018 , 11(11): 5799-5811 • ACS Applied Materials & Interfaces. 2017 , 9(5), 4988-4997 • Applied Catalysis B-Environmental. 2017 , 203, 946-954 • Carbon. 2017 , 118, 686-698 • Advanced Electronic Materials. 2017 , 3(5), 1600471(7pp) • ACS Applied Materials & Inter faces. 2016 , 8(22), 14029-14036 • IEEE Transactions on Cybernetics. 2014 , 44(8), 1249-1258 • International Journal of Engineering Science. 2011 , 49(10), 1033-1046 • Applied Mathematical Modelling. 2011 , 35(1), 139-151 Awards and Achievements • Gold Award with the Congratulations of Jury, “Scalable all-textile energy harvesters for electric power generation”, 46 th International Exhibition of Inventions of Geneva, Switzerland, Principal Investigator, 2018 • Gold Award with the Congratulations of Jury, “Development of fine worsted yak yarns and fabrics”, 45 th International Exhibition of Inventions of Geneva, Switzerland, Principal Investigator, 2017 Prof. XU Bingang Professor Research Overview The research work of Prof. Xu mainly focuses on advanced yarn technologies, which include novel spinning method, mathematical yarn modeling, computerized yarn evaluation, and wearable technology of yarns and their fabrics.