个人简介
BSc (2009), Beijing University of Chemical Technology, China.
MSc (2010), Chemical Enzymology, Queen's University Belfast.
PhD (2015), Determination of the role of nanoparticle active sites in catalytic hydrogenation reactions by cyclic voltammetry and novel in-situ surface spectroscopies, Cardiff University.
研究领域
Surface chemistry of halogens with nano-particulate gold on carbon substrates, utilising a range of surface sensitive methods (STM, XPS, LEED, AFM).
Oxy-chlorination of CO on supported copper catalysts to generate phosgene.
DFT calculations of the surfaces and reactants of interest to the project.
近期论文
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Allender, C. J.et al. 2020. The role of growth directors in controlling the morphology of hematite nanorods. Nanoscale Research Letters 15, article number: 161. (10.1186/s11671-020-03387-w)
Sun, H.et al. 2020. Direct and highly selective conversion of captured CO2 into methane through integrated carbon capture and utilization over dual functional materials. Journal of CO2 Utilization 38, pp. 262-272. (10.1016/j.jcou.2020.02.001)
Mardle, P.et al. 2020. Thin film electrodes from Pt nanorods supported on aligned N-CNTs for proton exchange membrane fuel cells. Applied Catalysis B: Environmental 260, article number: 118031. (10.1016/j.apcatb.2019.118031)
Zhao, P.et al. 2020. Expanding the portfolio of tribo-positive materials: Aniline formaldehyde condensates for high charge density triboelectric nanogenerators. Nano Energy 67, article number: 104291. (10.1016/j.nanoen.2019.104291)
Baletto, F.et al. 2018. Application of new nanoparticle structures as catalysts: general discussion. Faraday Discussions 208, pp. 575-593. (10.1039/C8FD90016G)
Bowden, B.et al. 2018. The deposition of metal nanoparticles on carbon surfaces: the role of specific functional groups. Faraday Discussions 208, pp. 455-470. (10.1039/C7FD00210F)
Guan, S.et al. 2018. Structural behaviour of copper chloride catalysts during the chlorination of CO to phosgene. Faraday Discussions 208, pp. 67-85. (10.1039/C8FD00005K)
Liu, Y.et al. 2018. Evolution of palladium sulfide phases during thermal treatments and consequences for acetylene hydrogenation. Journal of Catalysis 364, pp. 204-215. (10.1016/j.jcat.2018.05.018)
Wang, Q.et al. 2018. Ultrathin and vacancy-rich CoAl-layered double hydroxide/graphite oxide catalysts: promotional effect of cobalt vacancies and oxygen vacancies in alcohol oxidation. ACS Catalysis 8, pp. 3104-3115. (10.1021/acscatal.7b03655)
Bahruji, H., Guan, S. and Puthiyapura, V. K. 2017. Precious metal catalysts for sustainable energy and environmental remediation. In: Hutchings, G. et al. eds. Modern Developments in Catalysis. World Scientific Publishing, pp. 211-251., (10.1142/9781786341228_0007)
Guan, S.et al. 2016. Structure sensitivity in Catalytic Hydrogenation at Platinum Surfaces Measured by Shell-Isolated Nanoparticle Enhanced Raman Spectroscopy (SHINERS). ACS Catalysis 6(3), pp. 1822-1832. (10.1021/acscatal.5b02872)
Guan, S. 2014. Determination of the role of nanoparticle active sites in catalytic hydrogenation reactions by cyclic voltammetry and novel in-situ surface spectroscopy. PhD Thesis, Cardiff University.
Attard, G. A.et al. 2013. Semi-hydrogenation of alkynes at single crystal, nanoparticle and biogenic nanoparticle surfaces: the role of defects in Lindlar-type catalysts and the origin of their selectivity. Faraday Discussions 2013(162), pp. 57-75. (10.1039/c3fd00007a)