228 phd-for-computational-mechanics-"FEMTO-ST"-"FEMTO-ST" positions at University of Manchester
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
the award of two fully funded PhD scholarships for students residing in the UK who are eligible for home fees and who identify as being black-heritage (encompassing African, Caribbean, and black-mixed
-
A Research Assistant in Cell & Developmental Biology or Biomechanics is sought to contribute to an interdisciplinary research project investigating how tissues respond to mechanical force. The post
-
Fashion Imaging and Characterisation Informatics Management of Projects in Engineering Materials Mathematics Mechanical Engineering Metallurgy and Corrosion Nano and Functional Materials Nuclear Engineering
-
mechanisms that could be targeted to promote more effective responses to infection and cancer. Essential requirements/skills for the post include: Holding (or expect to hold shortly) a PhD in Immunology or a
-
machine learning background. You will hold, or be about to obtain, a PhD in a relevant field. This is a unique opportunity to join a large UK-wide team of experts in causal inference for healthcare to make
-
hypomethylating agenet ASTX727 (decitabine+cedazuridine). A total of 50 patients were treated with ASTX727, randomised against 25 on standard-of-care hydroxycarbamide. You will investigate mechanisms of ASTX727
-
turbine towers. Compared to conventional steel towers, the efficient use of concrete and steel materials in CFDST offers superior mechanical properties and savings in cost. In the project, a combined
-
opportunity to contribute to cutting-edge, interdisciplinary research at the interface of materials design, computation, and energy innovation. We welcome applicants who hold, or are close to completing, a PhD
-
developments in robust nuclear fuels, under a Rolls-Royce Chair position which is held by Prof Turner. This programme is based on the development of dispersion fuel technologies, which comprise a fissile uranium
-
no regenerative capacity. It aims to address the functional importance of dynamic gene expression underlying spinal cord regeneration and the mechanism by which microRNAs regulate it using zebrafish as an animal