NG, Yun Hau - 香港城市大学 - 能源与环境学院

个人简介

Dr. Yun Hau Ng received his B. Sc. (Industrial Chemistry) from the Universiti Teknologi Malaysia in 2003 and his Ph.D from Osaka University (under supervision of Prof. Michio Matsumura) in 2009. After a brief research stay at the Radiation Laboratory, the University of Notre Dame (Prof. Prashant Kamat's group), he joined the Australian Research Council (ARC) Centre of Excellence for Functional Nanomaterials at the University of New South Wales (UNSW) with the Australian Postdoctoral Fellowship (APD) in 2011. In 2014, he took up a lecturer position at the School of Chemical Engineering, UNSW and was promoted to a tenured Senior Lecturer in 2016. Dr. Ng’s research is focused on the development of novel photoactive semiconductors system (particles and thin films) for sunlight energy-to-chemicals conversion and storage. Focusing on these topics, he has secured more than AUD$3 million research funding in the last 7 years from various sources including the Australian Research Council. As of April 2018, he has published more than 100 peer-reviewed journal articles including well-recognised journals such as Chem. Rev., Adv. Mater., Adv. Energy Mater., JACS, Energy Environ. Sci, Nano Energy, Small and Chem. Mater. Dr. Ng is currently serving as Editorial Board Member for Scientific Reports and Frontiers in Energy Research. He has also served as a Guest Editor in special issues for Catal. Today (Elsevier), ChemPlusChem (Wiley), Particle and Particle Systems Characterizations (Wiley), and Energies (MDPI). Dr. Ng has received The Distinguished Lectureship Award from the Chemical Society of Japan in 2018. He was previously named the Honda-Fujishima Prize winner in 2013 as the first non-Japanese recipient, in recognition of his work in the area of photo-dri

研究领域

Suspension-type nanoparticulate photocatalytic water splitting. (i) Reactor design for scalable reaction; (ii) Development of Z-scheme artificial photosynthesis using oxide powder; (iii) Band-structural modulation of oxide semiconductor Photoelectrochemical water splitting. (i) Scalable thin film fabrication methods; (ii) Liquid-solid interface at photoelectrodes; (iii) Charge transportation under illuminated electrochemical system. Electrochemical carbon dioxide reduction or conversion assisted with light. (i) CO2 adsorption-reduction/conversion mechanistic pathways; (ii) Development of low cost earth-abundant electrode materials. Other photocatalytic reactions for energy and environmental applications. For examples, (i) NOx degradation and (ii) ammonia decomposition (for hydrogen generation)

近期论文

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Constructing low-cost Ni3C/twin-crystal Zn0.5Cd0.5S heterojunction/homojunction nanohybrids for efficient photocatalytic H2 evolution Shen, R., Ding, Y., Li, S., Zhang, P., Xiang, Q., Ng, Y. H. & Li, X., 5 Jan 2021, In : Chinese Journal of Catalysis. 42, 1, p. 25-36 FeCo alloy@N-doped graphitized carbon as an efficient cocatalyst for enhanced photocatalytic H2 evolution by inducing accelerated charge transfer Chen, S., Hau Ng, Y., Liao, J., Gao, Q., Yang, S., Peng, F., Zhong, X. & 2 others, , Jan 2021, In : Journal of Energy Chemistry. 52, p. 92-101 Visible-light-driven photoelectrocatalytic activation of chloride by nanoporous MoS2@BiVO4 photoanode for enhanced degradation of bisphenol A Zheng, Z., Ng, Y. H., Tang, Y., Li, Y., Chen, W., Wang, J., Li, X. & 1 others, , Jan 2021, In : Chemosphere. 263, 128279.Check@CityULib Customised fabrication of nitrogen-doped biochar for environmental and energy applications Wan, Z., Sun, Y., Tsang, D. C., Khan, E., Yip, A. C., Ng, Y. H., Rinklebe, J. & 1 others, , 1 Dec 2020, In : Chemical Engineering Journal. 401, 126136. Solvothermal synthesis of copper-doped BiOBr microflowers with enhanced adsorption and visible-light driven photocatalytic degradation of norfloxacin Lv, X., Yan, D. Y. S., Lam, F. L., Ng, Y. H., Yin, S. & An, A. K., 1 Dec 2020, In : Chemical Engineering Journal. 401, 126012. Silk fibroin-derived nitrogen-doped carbon quantum dots anchored on TiO2 nanotube arrays for heterogeneous photocatalytic degradation and water splitting Wang, Q., Cai, J., Biesold-McGee, G. V., Huang, J., Ng, Y. H., Sun, H., Wang, J. & 2 others, , Dec 2020, In : Nano Energy. 78, 105313. Scavenger-free and self-powered photocathodic sensing system for aqueous hydrogen peroxide monitoring by CuO/ZnO nanostructure Wu, H., Chung, H. Y., Tsang, D. C., Huang, N. M., Xie, Z., Lim, H. N., Ok, Y. S. & 1 others, , 23 Nov 2020, In : Chemical Engineering Science. 226, 115886. Superior photoelectrocatalytic performance of ternary structural BiVO4/GQD/g-C3N4 heterojunction Samsudin, M. F. R., Ullah, H., Tahir, A. A., Li, X., Ng, Y. H. & Sufian, S., 5 Nov 2020, In : Journal of Colloid and Interface Science.Check@CityULib A review on 2D MoS2 cocatalysts in photocatalytic H2 production Liang, Z., Shen, R., Ng, Y. H., Zhang, P., Xiang, Q. & Li, X., 1 Nov 2020, In : Journal of Materials Science and Technology. 56, p. 89-121 Nanostructured CdS for efficient photocatalytic H2 evolution: A review Shen, R., Ren, D., Ding, Y., Guan, Y., Ng, Y. H., Zhang, P. & Li, X., Nov 2020, In : Science China Materials. 63, 11, p. 2153–2188Check@CityULib Selective Ethanol Oxidation to Acetaldehyde on Nanostructured Zeolitic Imidazolate Framework-8-Wrapped ZnO Photothermocatalyst Thin Films Wu, H., Tan, T. H., Liu, R., Hsu, H. & Ng, Y. H., 23 Oct 2020, In : Solar RRL. 2000423.Check@CityULib Surface plasmon resonance effect of a Pt-nano-particles-modified TiO2 nanoball overlayer enables a significant enhancement in efficiency to 3.5% for a Cu2ZnSnS4-based thin film photocathode used for solar water splitting Li, L., Feng, K., Huang, D., Wang, K., Li, Y., Guo, Z., Ng, Y. H. & 1 others, , 15 Sep 2020, In : Chemical Engineering Journal. 396, 125264.Check@CityULib Recent advances in photodegradation of antibiotic residues in water Yang, X., Chen, Z., Zhao, W., Liu, C., Qian, X., Zhang, M., Wei, G. & 3 others, , 1 Feb 2021, In : Chemical Engineering Journal. 405, 126806.Check@CityULib Preparation of Bi-based photocatalysts in the form of powdered particles and thin films: a review Wu, X., Toe, C. Y., Su, C., Ng, Y. H., Amal, R. & Scott, J., 21 Aug 2020, In : Journal of Materials Chemistry A. 8, 31, p. 15302-15318 Halide Perovskite Single Crystals: Optoelectronic Applications and Strategical Approaches Zhang, Y., Lyu, M., Qiu, T., Han, E., Kim, I. K., Jung, M., Ng, Y. H. & 2 others, , Aug 2020, In : Energies. 13, 6, 4250. Solid Nanoporosity Governs Catalytic CO2 and N2 Reduction Naseem, F., Lu, P., Zeng, J., Lu, Z., Ng, Y. H., Zhao, H., Du, Y. & 1 others, , 28 Jul 2020, In : ACS Nano. 14, 7, p. 7734-7759 Light soaking effect driven in porphyrin dye-sensitized solar cells using 1D TiO2 nanotube photoanodes Yun, J., Mozer, A. J., Wagner, P., Offier, D. L., Amal, R. & Ng, Y. H., Jul 2020, In : Sustainable Materials and Technologies. 24, e00165. Experimental and DFT Insights on Microflower g-C3N4/BiVO4 Photocatalyst for Enhanced Photoelectrochemical Hydrogen Generation from Lake Water Samsudin, M. F. R., Ullah, H., Bashiri, R., Mohammed, N. M., Sufian, S. & Ng, Y. H., 29 Jun 2020, In : ACS Sustainable Chemistry & Engineering. 8, 25, p. 9393-9403 Z-Schematic Solar Water Splitting Using Fine Particles of H2-Evolving (CuGa)0.5ZnS2 Photocatalyst Prepared by a Flux Method with Chloride Salts Yoshino, S., Iwase, A., Ng, Y. H., Amal, R. & Kudo, A., 22 Jun 2020, In : ACS Applied Energy Materials. 3, 6, p. 5684-5692 Enhanced Electrochemical CO2 Reduction of Cu@CuxO Nanoparticles Decorated on 3D Vertical Graphene with Intrinsic sp3-type Defect Ma, Z., Tsounis, C., Kumar, P. V., Han, Z., Wong, R. J., Toe, C. Y., Zhou, S. & 4 others, , 10 Jun 2020, In : Advanced Functional Materials. 30, 24, 12 p., 1910118.