发表SCI论文40余篇,其中以一作或通讯在Nat. Sustain.、 Angew. Chem. Int. Ed.(6)、 Engineering、 AIChE J.(5)、Adv. Funct. Mater.(2)、等期刊发表文章30余篇;申请中国发明专利17件,申请国际专利1件,已获授权专利6件;主持国家重点研发计划子课题,国家自然科学基金面上项目、青年项目以及苏州实验室首批预研项目等;获江苏省特聘教授、江苏省优秀博士论文、欧盟地平线2020玛丽居里行动计划卓越奖等。 代表性论文(#: 共同一作;*: 通迅作者): 1) Y.S. Xia, H.Y. Cao, F. Xu, Y.X. Chen, Y. Xia, D.Z. Zhang, L.H. Dai, K. Qu, C. Lian, K. Huang*, W.H. Xing, W.Q. Jin*, Z. Xu*. Polymeric membranes with aligned zeolite nanosheets for sustainable energy storage. Nat. Sustain., 2022, 5(12): 1080-1091. 2) D.Z. Zhang#, K. Huang#, Y.S. Xia, H.Y. Cao, L.H Dai, K. Qu, L. Xiao, Y.Q. Fan, Z. Xu*. Two-dimensional MFI-type Zeolite Flow Battery Membranes. Angew Chem Int Ed, 2023, 62 (43), e202310945. 3) K. Qu#, J.P. Xu#, L.H. Dai, Y.X. Wang, H.Y. Cao, D.Z. Zhang, Y.L. Wu, W.Y. Xu, K. Huang*, C. Lian, X.H. Guo, W.Q. Jin*, Z. Xu*. Electrostatic-Induced Crystal-Rearrangement of Porous Organic Cage Membrane for CO2 Capture. Angew Chem Int Ed, 2022, 61(31), e202205481. 4) K. Qu#, K. Huang#, J.P. Xu, L.H. Dai, Y.X. Wang, H.Y. Cao, Y.S. Xia, Y.L. Wu, W.Y. Xu, Z.Z. Yao, X.H. Guo, C. Lian, Z. Xu*. High-Efficiency CO2/N2 Separation Enabled by Rotation of Electrostatically Anchored Flexible Ligands in Metal-Organic Framework. Angew Chem Int Ed, 2022, 61(49), e202213333. 5) L.H Dai#, F. Xu#, K. Huang*, Y.S. Xia, Y.X. Wang, K. Qu, L. Xin, D.Z. Zhang, Z.D. Xiong, Y.L. Wu, X.H Guo, W.Q. Jin*, Z. Xu*. Ultrafast water transport in two-dimensional channels enabled by spherical polyelectrolyte brushes with controllable flexibility. Angew Chem Int Ed, 2021, 60 (36): 19933. 6) K. Huang, B. Wang, S. Guo, K. Li*. Micropatterned ultrathin MOF membranes with enhanced molecular sieving property. Angew Chem Int Ed, 2018, 57(42): 13892. 7) K. Huang, G.P. Liu, Y.Y. Lou, Z.Y. Dong, J. Shen, W.Q. Jin*. A graphene oxide membrane with highly selective molecular separation of aqueous organic solution. Angew Chem Int Ed, 2014, 53(27): 6929. 8) K. Huang#, S.H, Lin#, Y. Xia, Y.S. Xia, F.Y. Mu, Y.Q. Lu, H.Y. Cao, YX. Wang, W.H. Xing, Z. Xu*. High conductive proton-selectivity membrane enabled by hollow carbon sieving nanosphere for energy storage devices. Engineering, 2023, 28(9): 72-81. 9) Y.K. Cai#, S.H. Lin#, Y. Xia, Q.M. Hou, Y.Q. Lu, H.Y. Cao, Y.X. Wang, Kang Huang*, Zhi Xu*. ZSM-5 zeolite incorporated flow battery membranes with regulated pore channels for high proton conduction. AlChE Journal. 2023, accepted. 10) Y.S. Xia, Y. Wang, L. Xiao, YH. Yu, JH. Ji, Y. Xia, K. Qu, K. Huang*, W.H. Xing, Z. Xu*. Functional molecular cross-linked zeolite nanosheets heighten ion selectivity and conductivity of flow battery membrane. AIChE J, 2022, e17964. 11) X.X. Hou#, K. Huang#, Y.S. Xia, F.Y. Mu, H.Y. Cao, Y. Xia, YL. Wu, Y.Q. Lu, Y.X. Wang, F. Xu, Y. Yu, W.H. Xing, Z. Xu*. Fish-scale-like nano-porous membrane based on zeolite nanosheets for long stable zinc-based flow battery. AIChE J, 2022, 68(9), e17738. 12) H.Y. Cao, Y. Xia, Y.Q. Lu, Y.L. Wu, Y.S. Xia, X.X. Hou, Y.X. Wang, G.P. Liu, K. Huang*, Z. Xu*. MOF-801 polycrystalline membrane with sub-10 nm polymeric assembly layer for ion sieving and flow battery storage. AIChE J, 2022, DOI: 10.1002/aic.17657 13) K. Huang, X.L. Dong, R.F. Ren, W.Q. Jin*. Fabrication of homochiral metal-organic framework membrane for enantioseparation of racemic diols. AIChE J, 2013, 59(11): 4364. |