Sort by
Refine Your Search
-
Listed
-
Program
-
Employer
-
Field
-
is close. Our cohesive campuses make it easy to meet, work together and exchange knowledge, which promotes a dynamic and open culture. The ongoing societal transformation and large green investments in
-
is close. Our cohesive campuses make it easy to meet, work together and exchange knowledge, which promotes a dynamic and open culture. The ongoing societal transformation and large green investments in
-
is close. Our cohesive campuses make it easy to meet, work together and exchange knowledge, which promotes a dynamic and open culture. The ongoing societal transformation and large green investments in
-
. Monte-Carlo and Molecular Dynamics approaches. Requirements PhD degree in physics or engineering or a foreign degree equivalent to a PhD degree in physics or engineering. The degree needs to be obtained
-
with e.g. Monte-Carlo and Molecular Dynamics approaches. Requirements PhD degree in physics or technology or a foreign degree equivalent to a PhD degree in physics or technology. The degree needs to be
-
and engineers at SciLifeLab develop, use, and offer advanced techniques to increase understanding of vital processes at the molecular level, focusing on health and the environment. SciLifeLab’s national
-
center that provides a unique environment. Researchers and engineers at SciLifeLab develop, use, and offer advanced techniques to increase understanding of vital processes at the molecular level, focusing
-
with molecular simulation tools (GROMACS, CHARMM, etc) and/or multiscale and coarse-grained approaches, such as Normal Mode Analysis, Brownian Dynamics, etc. are a prerequisite. Extensive expertise in
-
is close. Our cohesive campuses make it easy to meet, work together and exchange knowledge, which promotes a dynamic and open culture. The ongoing societal transformation and large green investments in
-
scientific fields and a multitude of educations ranked highly in international comparison. Recent breakthroughs at Umeå University include deciphering the molecular mechanisms of the bacterial CRISPR-Cas9