"Rapid Production of High‐Purity Hydrogen Fuel through Microwave‐Promoted Deep Catalytic Dehydrogenation of Liquid Alkanes with Abundant Metals." Angewandte Chemie International Edition (2017), 56(34), 10170-10173.Once a warlord, always a warlord. Xiangyu Jie, Sergio Gonzalez‐Cortes, Tiancun Xiao, Jiale Wang, Benzhen Yao, Daniel R."On the performance optimization of Fe catalysts in the microwave – assisted H 2 production by the dehydrogenation of hexadecane" Catalysis Today (2018), 317, 29-35. Xiangyu Jie, Tiancun Xiao, Benzhen Yao, Sergio Gonzalez‐Cortes, Jiale Wang, Yiwen Fang, Hamid A."The importance of inner cavity space within SiO2 nanocapsule catalysts for excellent coking resistance in the high-space-velocity dry reforming of methane." Applied Catalysis B: Environmental (2019), 259, 118019. Changzhen Wang, Xiangyu Jie, Yuan Qiu, Yongxiang Zhao, Hamid A."The decarbonization of petroleum and other fossil hydrocarbon fuels for the facile production and safe storage of hydrogen." Energy & Environmental Science (2019), 12(1), 238-249. Slocombe, Yiwen Fang, Noah Miller, Hamid A. Xiangyu Jie, Sergio Gonzalez‐Cortes, Tiancun Xiao, Benzhen Yao, Jiale Wang, Daniel R."MnOx-Promoted, Coking-Resistant Nickel-based Catalysts for Microwave-initiated CO2 Utilization." Industrial & Engineering Chemistry Research (2020). Dilworth, Chunjian Xu, Tiancun Xiao, Peter P. Weisong Li, Xiangyu Jie, Changzhen Wangy, Jonathan R.“Fuels, power and chemical periodicity.” Philosophical Transactions of the Royal Society A (2020), 378(2180), p.20190308. Benzhen Yao, Vlad Kuznetsov, Tiancun Xiao, Xiangyu Jie, Sergio Gonzalez-Cortes, Jon Dilworth, Hamid Al-Megren, Saeed Alshihri and Peter Edwards."Microwave-initiated Catalytic Deconstruction of Plastic Waste into Hydrogen and High-value Carbon." Nature Catalysis (2020), DOI: 10.1038/s41928-5. Slocombe, Yige Gao, Ira Banerjee, Sergio Gonzalez‐Cortes, Benzhen Yao, Hamid A. My scientific interest and innovation, and of course an important part of my JRF projects aim to help solve the scourge of plastic waste by not only minimising environmental pollution but also lessening the dependence on non-renewable petrochemicals for plastics production. In a recent advance, I have discovered that the microwave-initiated catalytic conversion of plastic can produce both clean hydrogen fuel and also the constituent monomer through catalytic chemical depolymerisation. Thus, rather than burning hydrocarbons, our vision is to extract high purity, elemental hydrogen, in high yield, from fossil fuels. We hope that this can assist in the transition to a new scientific and technological era of 'Fossil fuels decarbonisation' as a stepping stone to a true low-carbon energy future. We utilise microwave science and technology to catalytically produce high-purity hydrogen through the dehydrogenation of hydrocarbon fossil fuels (include crude oil, diesel and petrol etc.). My primary area of research is in heterogeneous catalysis for CO 2-free hydrogen production. Library & Archives: Opening hours, facilities, services.Socially Isolated - Spiritually Connected. ![]() Terms & Conditions (Non-VATable events).360º views - Social and relaxation areas.360º views - Dining and accommodation areas.360º views - Conference and meeting areas.
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