Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
Post Doctoral Researcher in Digital Twins CO2-to-Protein production in collaboration between the ...
. The candidate will assume technological leadership over the software solutions developed for the above tasks, as well as take on to supervision of PhD and master students on the same topics. Your profile A Ph.D
-
). The ideal candidate would be a recent PhD graduate with a demonstrated capability to propose new hypotheses based on scientific literature, design experiments, and interpret results in a mechanistic framework
-
is available immediately. This role will address two key aspects of programme development; the design and construction of new bioluminescent and other reporter strains of human fungal pathogens
-
proteomics lab (led by Dr. Amir Saei). Your profile To be eligible for employment as a postdoctor, a PhD or a foreign degree deemed to be equivalent to a Swedish PhD is required. This eligibility requirement
-
. The overall goal of the project is to design a novel high temperature heat pump. You will be conducting Computational Fluid Dynamic (CFD) simulations and cycle analysis, which will be instrumental
-
information of 3 referees, including your PhD supervisor Join NUS and become part of our thriving community driving impactful research and innovation on the global stage. Only shortlisted candidates will be
-
megakaryocytes. This will include designing and conducting high throughput functional assays and pooled library screens followed by validation of findings in cell culture and mouse models. The successful
-
to platform development for metabolic engineering What you bring to the table PhD in biotechnology, microbiology, molecular biology, or a related field Experience working with strict anaerobes, ideally with
-
will advance our understanding of the next-generation colloidal systems. Your profile Applicants should hold a PhD in organic or polymer chemistry, or similar. You have extensive experience in organic
-
, this project will reveal the design rules by which microbial communities allocate and share metabolic functions. Such insights will not only advance fundamental ecology but also illuminate strategies