Sort by
Refine Your Search
-
Spectroscopy, etc; Surface phase – Scanning Electron Microscopy, TEM, XPS, FTIR-ATR, hardness testing etc. Ultimately the goal will be to test the ability of these plasma processed materials to withstand various
-
reviewed journals (assessed at: application and interview) Ability to communicate clearly and effectively both in writing and verbally along with the ability to convey complex concepts to a range of
-
– please email: • Dr Sam Amsbury – s.amsbury@sheffield.ac.uk • Prof Andrew Fleming – a.fleming@sheffield.ac.uk • Dr Lisa Smith – lisa.m.smith@sheffield.ac.uk View DetailsEmail EnquiryApply Online
-
potential funding routes. You can also explore our recent publications and research highlights through our individual lab pages and the School of Biosciences website. Initial enquiries welcome – please email
-
-neutral future. Hydrogen, a cornerstone of clean energy, requires advanced high-pressure storage systems to power transportation and decarbonise industries. CO2 capture and storage also depend on robust
-
with a first class or upper second-class degree in engineering, physics, applied mathematics or a related field. A solid foundation in fluid dynamics and heat transfer, and experience with computer
-
innovation—apply now and power the future of hydrogen technology! Funding Notes Full 4-year Funding for UK applicants: Includes UK-only tuition fees and a stipend at standard EPSRC rates (2025/2026: Bursary
-
holiday and closure days (pro rata) with the ability to purchase more. Flexible working opportunities, including hybrid working for some roles. Generous pension scheme. A wide range of discounts and rewards
-
Application Deadline: Applications accepted all year round Details Carbon Capture and Storage (CCS) is an emerging near-zero emission technology that can applied to next generation gas turbine based power