294 structural-engineering "https:" "https:" "https:" "https:" "https:" "https:" "Multiple" "U.S" positions at University of Glasgow
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
- Linguistics
- Economics
- Medical Sciences
- Mathematics
- Computer Science
- Biology
- Materials Science
- Arts and Literature
- Business
- Humanities
- Engineering
- Science
- Sports and Recreation
- Psychology
- Education
- Environment
- Philosophy
- Social Sciences
- Earth Sciences
- Chemistry
- Electrical Engineering
- Law
- 12 more »
- « less
-
immunoblotting and immunofluorescence microscopy. References: F. O. Kok, H. Wang, P. Riedlova, C. S. Goodyear, R. J. Carmody, Defining the structure of the NF-ĸB pathway in human immune cells using quantitative
-
if tradeable points can be used under the Skilled Worker visa rules. For more information please visit: https://www.gov.uk/skilled-worker-visa. As a valued member of our team, you can expect: 1 A warm welcoming
-
An excellent employment package with generous terms and conditions including 41 days of leave for full time staff, pension - pensions handbook https://www.gla.ac.uk/myglasgow/payandpensions/pensions/, benefits
-
and conditions including 41 days of leave for full time staff, pension - pensions handbook https://www.gla.ac.uk/myglasgow/payandpensions/pensions/, benefits and discount packages. 3 A flexible approach
-
the schools in the college. 6. Keep abreast with advancements in technology, their applications, and continually updating both knowledge and skills in support of teaching excellence as appropriate
-
information please visit: https://www.gov.uk/skilled-worker-visa. As a valued member of our team, you can expect: 1 A warm welcoming and engaging organisational culture, where your talents are developed and
-
, chemistry, materials science, engineering, or a related discipline. We are open to experimental experience in relevant topics, for example, spin systems and their control (e.g., spin resonance, solid-state
-
synovial tissue organoids, and cocultures of human tissue macrophages with autologous antigen-specific TCR-engineered T cells, and humanised macrophage–sensory neuron co-cultures. The candidate will also
-
the localisation of inflammation in the joints. The project is based on a bed-to-bench-and-back approach , utilising human tissue single-cell and spatial multi-omics , engineered CAR-T cells,human organoids , and
-
, silver and gold awards across the University. We are investing in our organisation, and we will invest in you too. Please visit our website https://www.gla.ac.uk/explore/jobs/ for more information