Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
: The successful candidate will work in a team developing metal-free magnetism in graphene-related materials and organic 2-dimentional crystals by means of theoretical materials science. A wide range of quantum
-
into mechanisms deregulated in cancer. We are looking for a highly motivated Ph.D. student to join our young and dynamic research group. The successful candidate will get access to several core facilities and
-
on development of novel methods involving organic chemistry, transition-metal catalysis, photocatalysis, enantioselective catalysis, and C-H functionalization as well as reaction mechanism elucidation
-
resulting actuation behavior. You will be working practically in the lab using commercial rheometers, mechanical testers, polarizing microscopes etc., in addition to bespoke equipment built for establishing
-
integration and plasticity at spinal nociceptive synapses, with particular emphasis on sex-specific mechanisms and glial adaptations that may influence the transition from acute to chronic pain, as well as its
-
opportunity to contribute to cutting-edge research aimed at understanding microbiome-driven mechanisms and developing novel strategies for disease prevention and treatment. You will collaborate with renowned
-
, through clever chemistry that attracts CO2 to the surfaces of 3D spongelike materials (such as metal-organic frameworks, or MOFs); and decarbonise the energy sector by designing new catalysts that will
-
interdisciplinary team from electrical, mechanical, and chemical engineering, as well as physics and chemistry, with the intention to bring promising new 2D materials out of the laboratory and into the market-place
-
exploring urology‑relevant ion channel mechanisms, with translational relevance for conditions such as chronic pain, bladder dysfunction, and other urinary tract disorders. Background information The urinary
-
PhD Position in Hydrogen/Deuterium Exchange Mass Spectrometry to Study the Regulation of Lipoprot...
(SDU) is looking for a highly motivated PhD student to join a project on elucidating the mechanisms by which endogenous activators and inhibitors regulate lipoprotein lipase using hydrogen deuterium