149 arts-and-literature positions at GRK2376 "Confinement Controlled Chemistry" in Sweden
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
the candidate will be reading scientific literature and writing articles in English. Additional qualifications - Experience to work with ribosome or RNA is a merit. - The capacity of making scientific
-
Institute (MBW) experimentally addresses fundamental problems in molecular cell biology, integrative biology, and infection and immunobiology. State-of-the art and advanced methodologies are applied in a
-
Institute (MBW) experimentally addresses fundamental problems in molecular cell biology, integrative biology, and infection and immunobiology. State-of-the art and advanced methodologies are applied in a
-
. Hands-on experience with antibody design and functional characterization. Ability to critically evaluate scientific literature. Experience in preparing scientific reports and presentations. After
-
to their unprecedented brilliance. This project aims to enable new spatiotemporal frontiers while reducing the dose using state-of-the-art X-ray sources. In particular, the candidate will work on the development of novel
-
from Sweden as well as internationally, with state-of-the-art instrumentation for research in areas such as engineering, physics, structural biology, chemistry and nanotechnology. It will receive up to 2
-
for doctoral education . Skills and personal qualities Necessary: Experience with developing, evaluating and explaining state-of-the-art machine-learning algorithms, with a strong focus on deep learning
-
. Using state-of-the-art imaging in combination with neutron-based techniques, we will investigate the spatiotemporal characteristics of all key steps of cell internalization, from the initial contact
-
to autonomously make decisions, mirroring human’s ability to make quick, informed decisions in dynamic collaborative settings. This project is addressing a major gap in the state-of-the-art in the field of Human
-
robots. More concretely, the research will be centered around modern 3D data representations, such as neural radiance fields and Gaussian splatting, and processing of state-of-the-art high-resolution radar