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Zhang, Zhicheng, Ning, Ke, Xu, Zhi, Zheng, Qiankun, Tan, Jingkun, Liu, Zhengkun, Wu, Zhentao, Zhang, Guangru and Jin, Wanqin (2021). Highly efficient preparation of Ce0.8Sm0.2O2-δ–SrCo0.9Nb0.1O3-δ dual-phase four-channel hollow fiber membrane via one-step thermal processing approach. Journal of Membrane Science, 620 ,
Mahyon, Nur Izwanne, Li, Tao, Tantra, Billy Digjaya, Martinez-botas, Ricardo, Wu, Zhentao and Li, Kang (2020). Integrating Pd-doped perovskite catalysts with ceramic hollow fibre substrate for efficient CO oxidation. Journal of Environmental Chemical engineering, 8 (4),
Wu, Hong, Xu, Xinyuan, Shi, Lei, Yin, Yu, Zhang, Lai-chang, Wu, Zhentao, Duan, Xiaoguang, Wang, Shaobin and Sun, Hongqi (2019). Manganese oxide integrated catalytic ceramic membrane for degradation of organic pollutants using sulfate radicals. Water Research, 167 ,
Sihar, Ainun Sailah, Othman, Nur Hidayati, Alias, Nur Hashimah, Shahruddin, Munawar Zaman, Asghrar Syed-hassan, Syed Shatir, Rahman, Mukhlis A., Ismail, Ahmad Fauzi and Wu, Zhentao (2019). Fabrication of lanthanum-based perovskites membranes on porous alumina hollow fibre (AHF) substrates for oxygen enrichment. Ceramics International, 45 (10), pp. 13086-13093.
Yu, Qinghua, Jiang, Zhu, Cong, Lin, Lu, Tiejun, Suleiman, Bilyaminu, Leng, Guanghui, Wu, Zhentao, Ding, Yulong and Li, Yongliang (2019). A novel low-temperature fabrication approach of composite phase change materials for high temperature thermal energy storage. Applied Energy, 237 , pp. 367-377.
Mahyon, Nur Izwanne, Li, Tao, Martinez-Botas, Ricardo, Wu, Zhentao and Li, Kang (2019). A new hollow fibre catalytic converter design for sustainable automotive emissions control. Catalysis Communications, 120 , pp. 86-90.
Liu, Xiaotong, Shen, Boxiong, Wu, Zhentao, Parlett, Christopher M.a., Han, Zhenan, George, Adwek, Yuan, Peng, Patel, Dipesh and Wu, Chunfei (2018). Producing carbon nanotubes from thermochemical conversion of waste plastics using Ni/ceramic based catalyst. Chemical Engineering Science, 192 , pp. 882-891.
Ranieri, Giuseppe, Mazzei, Rosalinda, Poerio, Teresa, Bazzarelli, Fabio, Wu, Zhentao, Li, Kang and Giorno, Lidietta (2018). Biorefinery of olive leaves to produce dry oleuropein aglycone:use of homemade ceramic capillary biocatalytic membranes in a multiphase system. Chemical Engineering Science, 185 , pp. 149-156.
Prasetya, Nicholaus, Wu, Zhentao, Gil, Ana Gouveia and Li, K. (2017). Compact hollow fibre reactors for efficient methane conversion. Journal of the European Ceramic Society, 37 (16), pp. 5281-5287.
Chi, Yunsi, Li, Tao, Wang, Bo, Wu, Zhentao and Li, Kang (2017). Morphology, performance and stability of multi-bore capillary La0.6Sr0.4Co0.2Fe0.8O3-δ oxygen transport membranes. Journal of Membrane Science, 529 , 224–233.
Li, Tao, Lu, Xuekun, Wang, Bo, Wu, Zhentao, Li, Kang, Brett, Dan J.L. and Shearing, Paul R. (2017). X-ray tomography-assisted study of a phase inversion process in ceramic hollow fiber systems – Towards practical structural design. Journal of Membrane Science, 528 , pp. 24-33.
Othman, Nur Hidayati, Shahruddin, Munawar Zaman, Sihar, Ainun Sailah, Wu, Zhentao and Li, K. (2016). In-Situ catalytic surface modification of micro-structured La0.6Sr0.4Co0.2Fe0.8O3-δ (LSCF) Oxygen Permeable Membrane Using Vacuum-Assisted technique. MATEC Web of Conferences, 69 ,
Ranieri, Giuseppe, Mazzei, Rosalinda, Wu, Zhentao, Li, Kang and Giorno, Lidietta (2016). Use of a ceramic membrane to improve the performance of two-separate-phase biocatalytic membrane reactor. Molecules, 21 (3),
Gouveia Gil, Ana, Wu, Zhentao, Chadwick, David and Li, K. (2015). A catalytic hollow fibre membrane reactor for combined steam methane reforming and water gas shift reaction. Chemical Engineering Science, 137 , pp. 364-372.
Liu, Xinlei, Demir, Nilay Keser, Wu, Zhentao and Li, Kang (2015). Highly Water-Stable Zirconium Metal-Organic Framework UiO-66 Membranes Supported on Alumina Hollow Fibers for Desalination. Journal of the American Chemical Society, 137 (22), pp. 6999-7002.
Gouveia Gil, Ana, Wu, Zhentao, Chadwick, David and Li, K. (2015). Microstructured catalytic hollow fiber reactor for methane steam reforming. Industrial and Engineering Chemistry Research, 54 (21), pp. 5563-5571.
Wu, Zhentao, Faiz, Rami, Li, Tao, Kingsbury, Benjamin F.K. and Li, K. (2013). A controlled sintering process for more permeable ceramic hollow fibre membranes. Journal of Membrane Science, 446 , pp. 286-293.
Wang, Ning, Burugapalli, Krishna, Song, Wenhui, Halls, Justin, Moussy, Francis, Zheng, Yudong, Ma, Yanxuan, Wu, Zhentao and Li, Kang (2013). Tailored fibro-porous structure of electrospun polyurethane membranes, their size-dependent properties and trans-membrane glucose diffusion. Journal of Membrane Science, 427 , pp. 207-217.
Wu, Zhentao, Thursfield, Alan, Metcalfe, Ian and Li, K. (2012). Effects of separation layer thickness on oxygen permeation and mechanical strength of DL-HFMR-ScSZ. Journal of Membrane Science, 415-41 , pp. 229-236.
Gil, A., Wu, Z., Chadwick, D. and Li, K. (2012). Novel catalytic membrane micro-reactors for CO2 capture via pre-combustion decarbonization route. Procedia Engineering, 44 , pp. 1315-1316.
Othman, N. H., Wu, Z. and Li, K. (2012). Functional dual-layer ceramic hollow fibre membranes for methane conversion. Procedia Engineering, 44 , pp. 1484-1485.
Othman, Mohd Hafiz Dzarfan, Droushiotis, Nicolas, Wu, Zhentao, Kelsall, Geoff and Li, Kang (2011). High-performance, anode-supported, microtubular sofc prepared from single-step-fabricated, dual-layer hollow fibers. Advanced Materials, 23 (21), pp. 2480-2483.
Hirani, Rajan Arjan Kalyan, Wu, Hong, Asif, Abdul Hannan, Rafique, Nasir, Shi, Lei, Zhang, Shu, Wu, Zhentao, Zhang, Lai-Chang, Wang, Shaobin, Yin, Yu, Saunders, Martin and Sun, Hongqi (2023). Cobalt oxide functionalized ceramic membrane for 4-hydroxybenzoic acid degradation via peroxymonosulfate activation. Journal of hazardous materials, 448 ,
Zhang, Zhicheng, Zhou, Wanglin, Wang, Tianlei, Gu, Zhenbin, Zhu, Yongfan, Liu, Zhengkun, Wu, Zhentao, Zhang, Guangru and Jin, Wanqin (2023). Ion–Conducting Ceramic Membrane Reactors for the Conversion of Chemicals. Membranes, 13 (7),