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Applied Chemistry PhD Projects, Programmes & Scholarships
We have 61 Applied Chemistry PhD Projects, Programmes & Scholarships
We have 61 Applied Chemistry PhD Projects, Programmes & Scholarships
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PhD in Chemistry: Organic Electrochemistry
PhD in Chemistry. Organic Electrochemistry. About the Project. Applications are invited for a fully funded 3-year PhD position in synthetic organic chemistry. Read more
Cleaner Futures: Electron microscopy of catalysts for renewable transformations
This PhD studentship. is an exciting opportunity to join a large project involving academic and industrial partners to study new catalysts for sustainable transformation using cutting edge electron microscopy techniques. Read more
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Electrodeposition of advanced Cu-based alloy catalysts for the electrochemical reduction of CO2 to valuable chemicals
SolDAC is an Horizon Europe project ambition is to reinvent the ethylene industry by proving (TRL4) an emerging breakthrough technology for producing technically and economically competitive, socially desirable and climate-neutral (sustainable) ethylene and co-product ethanol (C2 products) from solar energy and air. Read more
Cleaner Futures: MOF catalysts for CO2 utilisation
This PhD studentship is an exciting opportunity to join a large project involving academic and industrial partners to design and synthesise new supported metal catalysts for the conversion of waste CO. Read more
Cleaner Futures: New porous materials for CO2 Catalysis
This multi-disciplinary PhD studentship is an exciting opportunity to join a large project involving academic and industrial partners to develop new materials as supports for Fischer Tropsch and CO. Read more
Cleaner Futures: New materials for catalytic conversion of CO2 to chemicals
This multi-disciplinary PhD studentship is an exciting opportunity to join a large project involving academic and industrial partners to investigate new materials for the catalytic transformation of waste CO. Read more
Cleaner Futures: New porous frameworks for Sustainable Biomass Catalysis
This PhD studentship is an exciting opportunity to join a large project involving academic and industrial partners to develop new materials for the catalytic transformation of biomass-derived chemical feedstocks into monomers for carbon-neutral plastic manufacture. Read more
GREENCDT The electrochemistry of silver and its application in the dissolution of spent nuclear fuel
Supervisors. Professor Colin Boxall, email. c.boxall@lancaster.ac.uk. Dr Fabrice Andrieux, email. f.andrieux@lancaster.ac.uk. Dr Chris Maher (The National Nuclear Laboratory). Read more
GREENCDT The kinetics of new reprocessing routes for nuclear fuel
Supervisors. Professor Colin Boxall, email. c.boxall@lancaster.ac.uk. Professor Bruce Hanson, email. b.c.hanson@leeds.ac.uk. Professor Robin Taylor (The National Nuclear Laboratory). Read more
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PhD in Chemistry: New flow chemistry methods to access energetic materials
Within the proposed programme of research, alternative starting materials for the flow chemical synthesis of the hexaazaisowurtzitane structure will be explored. Read more
PhD studentship in Catalysis and Machine Learning
Introduction. Transition to net zero demands replacement of non-renewable resources with renewable alternatives. In the chemical industry, a promising solution is to substitute petroleum for annually renewable and non-edible organic matter (“biomass”). Read more
Development of green hydrogenation platforms for chemical feedstock development
We invite expressions of interest for a PhD position in the UCD School of Chemical and Bioprocess Engineering at University College Dublin, Ireland from outstanding students. Read more
Tritium removal from molten salt media in nuclear fusion and fission processes
Molten salt technologies are likely to be key components in future nuclear fuel cycles [1-3] and are of interest as coolants in fusion reactors as well as energy storage media to support solar power generation. Read more
Novel approaches in Li isotope enrichment to support the deployment of nuclear fusion reactors
Lithium has two naturally occurring, non-radioactive isotopes – 6Li, which is 7.5% abundant and 7Li, which is 92.5% abundant. 6Li will be used in breeder blankets to generate tritium to power the proposed deuterium-tritium fusion reactors.1. Read more