13860 - Postdoctoral Research Associate (Natural Hydrogen)
| Dyddiad hysbysebu: | 02 Mawrth 2026 |
|---|---|
| Cyflog: | £41,064 i £48,822 bob blwyddyn |
| Oriau: | Llawn Amser |
| Dyddiad cau: | 30 Mawrth 2026 |
| Lleoliad: | Edinburgh, Scotland |
| Gweithio o bell: | Ar y safle yn unig |
| Cwmni: | University of Edinburgh |
| Math o swydd: | Cytundeb |
| Cyfeirnod swydd: | 13860 |
Crynodeb
Grade UE07: £41,064 to £48,822 per annum
College of Science and Engineering / School of Geosciences
Full-time: 35 hours per week
Fixed-term: for 16 months
The Opportunity:
Where Curiosity Becomes Impact.
There’s a career for everyone at the University of Edinburgh. We can offer opportunities for you to develop in your career and make a real difference in the communities around us while contributing to the world at large. In Edinburgh, you are in one of the world’s most attractive cities with active arts and social sectors, while working in a University that has made significant contributions to society, medicine, physics and teaching for over four centuries. Our people have helped create the modern world and are working on more ground-breaking technologies and practices.
The University of Edinburgh is a world-class organisation. We look for the best in the field across all disciplines and provide a working environment where researchers can develop their careers and passion for their chosen subject area.
This is an Academic Research (Postdoctoral Research Associate) opportunity within the School of GeoSciences.
We are seeking a Postdoctoral Research Associate (Natural Hydrogen) to support the University of Edinburgh contribution to the Horizon Europe Clean Hydrogen project H2-QUEST. The project is focused on improving understanding of hydrogen source rocks and quantifying hydrogen generation and release rates under subsurface-relevant conditions.
The postholder will lead the University of Edinburgh experimental programme using high-pressure, high-temperature (HPHT) batch reactors and implement real-time monitoring of hydrogen production dynamics using in situ microsensors. You will analyse and interpret experimental datasets and integrate results with thermodynamic/kinetic geochemical modelling to constrain hydrogen generation rates across geological settings. You will deliver robust, well-documented datasets for consortium use, reporting, and publication, and work closely with project partners to ensure timely sharing and interpretation of results.
Your skills and attributes for success:
PhD (awarded, or thesis submitted by the start date) in geochemistry, geoenergy, chemistry, chemical engineering (geo-related), or a closely related discipline.
Demonstrated experience with experimental geochemistry and/or reactor-based experiments (HPHT or analogous high-integrity lab systems).
Strong knowledge of water–rock–gas reactions and redox processes relevant to hydrogen generation, and ability to apply this knowledge to interpret experimental results and constrain models.
Experience with geochemical modelling (thermodynamic and/or kinetic), using relevant platforms (e.g., PHREEQC, Geochemist’s Workbench, TOUGHREACT, CrunchFlow, or equivalent).
Experience with relevant analytical techniques for reactive systems, evidenced by routine use of several of: XRD, SEM-EDS, micro-CT, ICP-OES/ICP-MS, and gas analysis (e.g., GC).
Strong quantitative data skills (e.g., Python/R/Matlab), excellent organisational skills, and ability to communicate results clearly in a collaborative international project environment.
Working pattern:
This is a laboratory-based role and requires regular on-site attendance (daily during active experimental runs). Remote working will be limited and only permitted occasionally for specific tasks, subject to prior agreement with the line manager. As such, applicants should not expect routine or regular home working as part of this post.
A career with us has a range of other benefits that can be tailored to your lifestyle:
Competitive salary
Generous annual leave and public holiday entitlement
Defined benefits pension scheme
A wide range of staff discounts
Family-friendly initiatives and wellbeing support
Professional development and training opportunities
College of Science and Engineering / School of Geosciences
Full-time: 35 hours per week
Fixed-term: for 16 months
The Opportunity:
Where Curiosity Becomes Impact.
There’s a career for everyone at the University of Edinburgh. We can offer opportunities for you to develop in your career and make a real difference in the communities around us while contributing to the world at large. In Edinburgh, you are in one of the world’s most attractive cities with active arts and social sectors, while working in a University that has made significant contributions to society, medicine, physics and teaching for over four centuries. Our people have helped create the modern world and are working on more ground-breaking technologies and practices.
The University of Edinburgh is a world-class organisation. We look for the best in the field across all disciplines and provide a working environment where researchers can develop their careers and passion for their chosen subject area.
This is an Academic Research (Postdoctoral Research Associate) opportunity within the School of GeoSciences.
We are seeking a Postdoctoral Research Associate (Natural Hydrogen) to support the University of Edinburgh contribution to the Horizon Europe Clean Hydrogen project H2-QUEST. The project is focused on improving understanding of hydrogen source rocks and quantifying hydrogen generation and release rates under subsurface-relevant conditions.
The postholder will lead the University of Edinburgh experimental programme using high-pressure, high-temperature (HPHT) batch reactors and implement real-time monitoring of hydrogen production dynamics using in situ microsensors. You will analyse and interpret experimental datasets and integrate results with thermodynamic/kinetic geochemical modelling to constrain hydrogen generation rates across geological settings. You will deliver robust, well-documented datasets for consortium use, reporting, and publication, and work closely with project partners to ensure timely sharing and interpretation of results.
Your skills and attributes for success:
PhD (awarded, or thesis submitted by the start date) in geochemistry, geoenergy, chemistry, chemical engineering (geo-related), or a closely related discipline.
Demonstrated experience with experimental geochemistry and/or reactor-based experiments (HPHT or analogous high-integrity lab systems).
Strong knowledge of water–rock–gas reactions and redox processes relevant to hydrogen generation, and ability to apply this knowledge to interpret experimental results and constrain models.
Experience with geochemical modelling (thermodynamic and/or kinetic), using relevant platforms (e.g., PHREEQC, Geochemist’s Workbench, TOUGHREACT, CrunchFlow, or equivalent).
Experience with relevant analytical techniques for reactive systems, evidenced by routine use of several of: XRD, SEM-EDS, micro-CT, ICP-OES/ICP-MS, and gas analysis (e.g., GC).
Strong quantitative data skills (e.g., Python/R/Matlab), excellent organisational skills, and ability to communicate results clearly in a collaborative international project environment.
Working pattern:
This is a laboratory-based role and requires regular on-site attendance (daily during active experimental runs). Remote working will be limited and only permitted occasionally for specific tasks, subject to prior agreement with the line manager. As such, applicants should not expect routine or regular home working as part of this post.
A career with us has a range of other benefits that can be tailored to your lifestyle:
Competitive salary
Generous annual leave and public holiday entitlement
Defined benefits pension scheme
A wide range of staff discounts
Family-friendly initiatives and wellbeing support
Professional development and training opportunities