Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
offer you an opportunity to join DTU’s Department of Chemical and Biochemical Engineering as a PhD scholar starting in 2025. The available PhD positions will be within the areas listed below, but we also
-
. The research program “Save the Ash”, managed by Skogforsk and SLU, aims to develop a more resistant population of European ash for the future. The PhD project will investigate the recent rapid decline in
-
Australian or New Zealand citizens or Australian permanent residents. Students undertaking the joint PhD program will be enrolled in a PhD at both institutions. Your supervisory team will comprise of academic
-
din. En cookie er ikke et program som kan inneholde skadelige programmer eller virus. Hvordan nettsiden bruker cookies Cookies er nødvendig for å få nettsiden til å fungere. Cookies hjelper oss å få en
-
Leibniz Institute for Natural Product Research and Infection Biology - Hans Knöll Institute • | Jena, Th ringen | Germany | about 22 hours ago
in English and German language courses. Full-time / part-time full-time Programme duration 6 semesters, 8 semesters Beginning Only for doctoral programmes: any time Application deadline Please see our
-
23rd May 2025 Languages English English English The Department of Mechanical and Industrial Engineering has a vacancy for a PhD Candidate in Functionalized graphene structures as additives
-
dynamic energy harvesting applications. How to Apply: Prior to submitting an online application, you will need to contact the project supervisor to discuss with documents listed below: Curriculum Vitae
-
institution. The statement must clearly state that the candidate has been among the top 30 pct. in the graduation class for the study programme. List of publications and maximum 2 examples of relevant
-
program, completes the required UBC nomination process. See Nomination Procedures listed below. Nomination Procedures If a program wishes to recommend a potential CSC recipient for admission, the admitting
-
. The specific lattice planes are expected to accelerate rate-limiting steps and ultimately enhance the PCFC output performance. Moreover, theoretical calculations will be employed to understand the mechanisms