(1) Synthesis and preparation for hydroxide exchange membranes
(2) Research and development for low temperature direct ammonia fuel cells
(3) Electrochemical CO2 capture from air
[1] Teng Wang, Yun Zhao*, Brian P. Setzler, Reza Abbasi, Shimshon Gottesfeld, Yushan Yan, A High Performance 75 W Direct Ammonia Fuel Cells Stack, Cell Reports Physical Science, doi.org/10.1016/j.xcrp.2022.100829.
[2] Lin Shi#, Yun Zhao#, Stephanie Matz, Shimshon Gottesfeld, Brian P. Setzler*, Yushan Yan*, A Shorted Membrane Electrochemical Cell Powered by Hydrogen to Remove CO2 from the Air Feed of Hydroxide Exchange Membrane Fuel Cells. Nature Energy, 2022, 7, 238-247.
[3] Meiling Wu#, Xin Zhang#, Yun Zhao#, Chunpeng Yang, Shuangshuang Jing, Qisheng Wu, Jeffrey T. Miller, Nicole LiBretto, Tianpin Wu, Sahana Das Bhattacharyya, Mounesha Garaga, Yue Qi, Steven G. Greenbaum, Robert M. Briber, Yushan Yan, Liangbing Hu*, A High-performance Hydroxide Exchange Membrane Enabled by Cu2+-crosslinked Chitosan, Nature Nanotechnology, 2022, 17, 629-636.
[4] Yun Zhao#, Teng Wang#, Brian P. Setzler*, Reza Abbasi, Junhua Wang, Yushan Yan, A High-Performance Gas-Fed Direct Ammonia Hydroxide Exchange Membrane Fuel Cell, ACS Energy Letters, 2021, 6, 1996-2002.
[5] Yun Zhao#, Brian P. Setzler#, Junhua Wang#, Jared Nash, Teng Wang, Yushan Yan*, An Efficient Direct Ammonia Fuel Cell for Affordable Carbon-Neutral Transportation. Joule, 2019, 3(10), 2472-2484.
[6] Junhua Wang#, Yun Zhao#, Brian P. Setzler, Santiago Rojas-Carbonell, Lan Wang, Keda Hu, Chaya Ben Yehuda, Alina Amel, Miles Page, Lin Shi, Bingjun Xu*, Yushan Yan*, Poly (aryl piperidinium) Membranes and Ionomers for Hydroxide Exchange Membrane Fuel Cells. Nature Energy, 2019, 4, 392-398.
[7] Yun Zhao, Shuang Gu, Ke Gong, Jie Zheng, Junhua Wang, Yushan Yan*, Low-Voltage Gaseous HCl Electrolysis with Iron Redox-Mediated Cathode for Chlorine Regeneration, Angewandte Chemie International Edition, 2017, 56,10735-10739.
