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funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description This PhD is partially included in the ANR APERO project (Advanced catalysts Properties
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Lipid membranes as catalysts for peptidoglycan assembly School of Biosciences PhD Research Project Self Funded Prof Mike Williamson, Dr Indrajit Lahiri Application Deadline: Applications accepted
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tax monthly), with 75% of public transportation costs covered by the employer and 44 days of paid leave per year. Within the framework of the PEPR B-BEST program (https://www.pepr-bioproductions.fr
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(prae-doc) limited to expected 4 years for 30 hours/week. Expected start: May 2026. In the research group, we develop and investigate heterogeneous catalysts with a focus on high selectivity and stability
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compounds. Intermetallic catalysts stand out for their exceptional stability and diverse atomic and electronic structures. This versatility allows them to perform efficiently under harsh conditions, offering
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and test new catalysts for nucleophilic aromatic substitution. The performance of top catalysts will be quantified through a series of experimental and computational investigations. The scope
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demonstrates motivation, creativity and serves as a catalyst for effect change. She/he maintains competency/skills including the ability to provide care to special populations with diverse cultural backgrounds
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progress. (Required) Proven record of contribution to electrochemical research or design. (Required) Familiarity with electrode and catalyst design principles. (Preferred) Experience selecting electrode
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Stanford Medicine, Catalyst serves as Stanford Medicine's flagship innovation program to support inventors across the Stanford community in developing and accelerating their most promising innovations
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sustainable fuel production and long-term decarbonization of the chemical industry. In recent years, catalysts based on oxide–metal and oxide–intermetallic interfaces have emerged as particularly promising