selected publications academic article Hu GChen CLu HTWu YLiu CTao LMen YHe GLi KG. A review of technical advances, barriers, and solutions in the power to hydrogen (P2H) roadmap. Engineering. 6:1364-1380. 2020 Full text if available Lu HLi WMiandoab ESKanehashi SHu G. The opportunity of membrane technology for hydrogen purification in the power to hydrogen (P2H) roadmap: a review. Frontiers of Chemical Science and Engineering. 2020 Full text if available Li WWang YLu HTMumford KASmith KHStevens GW. Comparison of mass transfer performance of pulsed columns with Tenova kinetics internals and standard disc and doughnut internals. Hydrometallurgy. 186:132-142. 2019 Full text if available Xie KFu QXu CLu HTZhao QCurtain RGu DWebley PAQiao GG. Continuous assembly of a polymer on a metal–organic framework (CAP on MOF): a 30 nm thick polymeric gas separation membrane. Energy and Environmental Science. 11:544-550. 2018 Full text if available Kanehashi SAguiar ALu HTChen GQKentish SE. Effects of industrial gas impurities on the performance of mixed matrix membranes. Journal of Membrane Science. 549:686-692. 2018 Full text if available Lu HTLiu LKanehashi SScholes CAKentish SE. The impact of toluene and xylene on the performance of cellulose triacetate membranes for natural gas sweetening. Journal of Membrane Science. 555:362-368. 2018 Full text if available Xie KFu QKim JLu HTHe YZhao QScofield JWebley PAQiao GG. Increasing both selectivity and permeability of mixed-matrix membranes: Sealing the external surface of porous MOF nanoparticles. Journal of Membrane Science. 535:350-356. 2017 Full text if available Lu HTKanehashi SScholes CAKentish SE. The impact of ethylene glycol and hydrogen sulphide on the performance of cellulose triacetate membranes in natural gas sweetening. Journal of Membrane Science. 539:432-440. 2017 Full text if available Lu HTKanehashi SScholes CAKentish SE. The potential for use of cellulose triacetate membranes in post combustion capture. International Journal of Greenhouse Gas Control. 55:97-104. 2016 Full text if available Scholes CAChen GQLu HTKentish SE. Crosslinked PEG and PEBAX Membranes for Concurrent Permeation of Water and Carbon Dioxide. Membranes. 6:1-10. 2015 Full text if available
