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Position: PhD Studentship -Manipulation of Geometrical Effects at the Nanoscale to Control Catalysis
Institution: University College London
Department: Department of Chemical Engineering
Location: London, United Kingdom
Duties: To support the investigations, a unique vacuum setup has been built in the CNIE that enables us to control pressure in two chambers independently, with a 3D printed channel of controlled, micro-structured geometry. By working under vacuum, diffusion is necessarily in the Knudsen regime and effects that would be present in nano-structured geometries at normal or high pressure can be tested using precisely manipulated, complex (including fractal) geometries at larger scale (sub-mm resolution), and directly compared to theoretical calculations. This project will involve a detailed series of experiments on classical and fractal geometries, first of pure self- and transport diffusion, then with reaction by embedding catalytic particles. These results can then be compared to nanostructured porous catalysts at regular pressures, and help in optimising the design of the catalyst surface – a unique capability for a range of catalytic processes
Requirements: The candidate will have or be expected to obtain a first degree (minimum 2: 1, preferably 1st) in chemical engineering, chemistry, materials science or an associated discipline. The ability to work in an interdisciplinary environment that tackles questions across various fields of nanomaterials science, chemistry, and chemical engineering is expected. A comprehensive knowledge of transport phenomena, physical chemistry, and general chemistry is required. General chemistry or chemical engineering laboratory experience is also required. Effective written and verbal communication, good time-management skills, and the ability to work in a team as well as independently are essential
   
Text: PhD Studentship -Manipulation of Geometrical Effects at the Nanoscale to Control Catalysis, - Ref:1837778 Click here to go back to search results UCL Department / Division Department of Chemical Engineering Location of position London Duration of Studentship 4 years Stipend £17,009 per annum Overseas/UK/EU fees Vacancy Information The group of Professor M-O. Coppens, Department of Chemical Engineering at University College London (UCL) is seeking a graduate student to work on Manipulation of Geometrical Effects at the Nanoscale to Control Catalysis, as part of research in the EPSRC-funded Centre for Nature-Inspired Engineering (CNIE). The PhD position advertised is supported by Synfuels China for four years. The PhD candidate will use specially designed equipment to obtain experimental insights on nano-confinement effects, including fractal surface roughness, on diffusion and reaction in porous catalysts. This information will be used in supported catalyst design. Studentship Description More than 20 years ago, we used analytical calculations and computer simulations to suggest that fractal surface roughness has a significant effect on Knudsen diffusion, and hereby affects yields and product distributions of heterogeneously catalysed processes the effects on processes like vinyl acetate production and catalytic reforming were shown to be significant. Despite this theoretical basis and circumstantial experimental evidence, there has never been any direct experimental demonstration, or use of this method as a practical design tool. This is because geometrical effects in real porous catalysts combine effects of pore network topology, pore shape, size distribution and surface geometry. Now, 20 years later, using rapid progress in 3D printing and synthesis capabilities, we are able to easily realise complex controlled geometrical environments, which can then be used to test diffusion and reaction, and optimise the geometry for desired outcomes. This will be the focus of the proposed project. To support the investigations, a unique vacuum setup has been built in the CNIE that enables us to control pressure in two chambers independently, with a 3D printed channel of controlled, micro-structured geometry. By working under vacuum, diffusion is necessarily in the Knudsen regime and effects that would be present in nano-structured geometries at normal or high pressure can be tested using precisely manipulated, complex (including fractal) geometries at larger scale (sub-mm resolution), and directly compared to theoretical calculations. This project will involve a detailed series of experiments on classical and fractal geometries, first of pure self- and transport diffusion, then with reaction by embedding catalytic particles. These results can then be compared to nanostructured porous catalysts at regular pressures, and help in optimising the design of the catalyst surface a unique capability for a range of catalytic processes. Person Specification The candidate will have or be expected to obtain a first degree (minimum 2:1, preferably 1st) in chemical engineering, chemistry, materials science or an associated discipline. The ability to work in an interdisciplinary environment that tackles questions across various fields of nanomaterials science, chemistry, and chemical engineering is expected. A comprehensive knowledge of transport phenomena, physical chemistry, and general chemistry is required. General chemistry or chemical engineering laboratory experience is also required. Effective written and verbal communication, good time-management skills, and the ability to work in a team as well as independently are essential. Eligibility Funds are available to cover Overseas/EU/UK fees. Applications are to be made via the CNIE Centre Administrator Susie Emmett Susie.emmett@ucl.ac.uk . Applications should include a CV, and a 750 work (max) covering letter, outlining research interests, research experience to date, and why you would be suitable for the position. For further information on the work of the Centre for Nature-Inspired Engineering, please visit: https://www.natureinspiredengineering.org.uk/ . If you have any queries regarding the vacancy, please contact Susie Emmett: susie.emmett@ucl.ac.uk . Contact name Susie Emmett . Contact details Susie.emmett@ucl.ac.uk. UCL Taking Action for Equality Closing Date 16 Feb 2020 Studentship Start Date The successful candidate is expected to start as soon as possible. Job Description
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