1.Kun Zhang, Xiaoji Xie, Hongyu Li, Jiaxin Gao, Li Nie, Yue Pan, Juan Xie, Dan Tian, Wenlong Liu, Quli Fan, Haiquan Su, Ling Huang,* and Wei Huang, Highly Water-Stable Lanthanide-Oxalate MOFs with Remarkable Proton Conductivity and Tunable Luminescence, Advanced Materials, 2017, 29, 1701804. (SCI IF=32.086) 2.Kun Chen,‡ Wenhong Su,‡ Yue Wang, Huan Ge, Kun Zhang, Yangbo Wang, Xiaoji Xie, Vincent G. Gomes,* Handong Sun * and Ling Huang *, Nanocomposites of Carbon Nanotubes and Photon Upconversion Nanoparticles for Enhanced Optical Limiting Performance, Journal of Materials Chemistry C, 2018, 6, 7311-7316. (SCI IF=8.067) 3.Kun Zhang,*,‡ Ge-Hua Wen,‡ Song-Song Bao, Lan-Qing Wu, and Jia-Ge Jia, Studying the Proton Conduction through the Grain Surface of UiO-66-NH2, ACS Applied Energy Materials. 2020, 3, 8198−8204. (SCI IF=6.959) 4.Ge-Hua Wen, Qian Zou, Xin-Da Huang, Kun Zhang, Song-Song Bao, Li-Min Zheng*, Heterometallic uranyl-organic frameworks incorporating manganese and copper: Structures, ammonia sorption and magnetic properties, Polyhedron, 2021, 205, 115327. (IF=3.052) 5.Kun Zhang, Ge-Hua Wen, Xiao-Jing Yang, Dae-Woon Lim, Song-Song Bao, Masaki Donoshita,Lan-Qing Wu, Hiroshi Kitagawa,* and Li-Min Zheng*, Anhydrous Superprotonic Conductivity of a Uranyl-Based MOF from Ambient Temperature to 110 °C, ACS Materials Letters. 2021, 3, 744−751. (SCI IF=11.170) 6.Xiaowei Wu,+ Ziya Liu,+ Hu Guo,+ You-lee Hong, Bingqing Xu,* Kun Zhang, Yusuke Nishiyama, Wei Jiang, Satoshi Horike, Susumu Kitagawa, and Gen Zhang*, Host−Guest Assembly of H‑Bonding Networks in Covalent Organic Frameworks for Ultrafast and Anhydrous Proton Transfer, ACS Applied Materials & Interfaces, 2021, 13, 37172−37178. (SCI IF=10.383) 7.Xinzhu Jiang,§ Kun Zhang,§ Yang Huang, Bingqing Xu,* Xuefeng Xu, Jiajun Zhang, Ziya Liu, Yuxiang Wang, Yaoyao Pan, Shuyang Bian, Qihang Chen, Xiaowei Wu, and Gen Zhang*, Conjugated Microporous Polymer with C≡C and C−F Bonds: Achieving Remarkable Stability and Super Anhydrous Proton Conductivity, ACS Applied Materials & Interfaces, 2021, 3, 744−751. (SCI IF=10.383) 8.Yuxiang Wang‡, Kun Zhang‡, Xinzhu Jiang, Ziya Liu, Shuyang Bian, Yaoyao Pan, Zhen Shan, Miaomiao Wu, Bingqing Xu*, Gen Zhang*, Branched Poly(ethylene glycol)-Functionalized Covalent Organic Frameworks as Solid Electrolytes, ACS Applied Energy Materials. 2021, 4, 11720−11725. (SCI IF=6.959) 9.Yihan Du‡, Kun Zhang‡, Ziya Liu‡, Shaoxian Liu, Guoji Huang, Yang Huang, Qianqian Qin, Jiaxin Luo, Bingqing Xua*, Gen Zhanga*, Encapsulating NH4Br in metal organic framework: achieving remarkable proton conduction in low relative humidity, Dalton Transactions, 2021, 50, 15321-15326. (SCI IF=4.569) 10.Ziya Liu+, Kun Zhang+, Guoji Huang, Bingqing Xu,*, You-lee Hong, Xiaowei Wu, Yusuke Nishiyama, Satoshi Horike,*, Gen Zhang,* Susumu Kitagawa, High-Processable COF Gel Electrolyte Enabled by Side Chain Engineering for Lithium-ion Battery, Angewandte Chemie International Edition, 2022, 61, e202110695. (SCI IF=16.823 ) 11.Ziya Liu,§, Kun Zhang,§, Guoji Huang,§, Shuyang Bian, Yang Huang, Xinzhu Jiang, Yaoyao Pan, Yuxiang Wang, Xifeng Xia, Bingqing Xu,* Gen Zhang,* Lithium-ion transport in covalent organic framework membrane, Chemical Engineering Journal, 2022, 433, 133550. (SCI IF=16.744) 12.Shuyang Bian,† Kun Zhang,† Yuxiang Wang, Ziya Liu, Guixiang Wang,* Xinzhu Jiang, Yaoyao Pan, Bingqing Xu,* Guoji Huang, and Gen Zhang*, Charge Separation by Imidazole and Sulfonic Acid-Functionalized Covalent Organic Frameworks for Enhanced Proton Conductivity, ACS Applied Energy Materials, 2022, 5, 1298−1304. (SCI IF=6.959). 13.Lu Feng,‡ Shuyang Bian,‡ Kun Zhang* and Hong Zhou*, Remarkable proton conducting behavior driven by synergistic effects in acid–base conjugated MOFs impregnated with sulphuric acid molecules, Dalton Transactions, DOI: 10.1039/d2dt01816k. (SCI IF=4.569). 14.Shengdong Wang,# Xiaohui Tang,# Kaijie Yang,# Bin Chen, Kun Zhang, Hong Xu, Weitao Wang, Gen Zhang,* Cheng Gu*,Facile, Direct, De Novo Synthesis of an Alkyl Phosphoric Acid-Decorated Covalent Organic Framework, Macromolecular Rapid Communications, DOI: 10.1002/marc.202200678. (SCI IF=5.006) |
