Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- France
- United Kingdom
- Portugal
- Sweden
- Singapore
- Germany
- Poland
- Belgium
- Czech
- Spain
- Netherlands
- Norway
- Denmark
- Switzerland
- Canada
- Italy
- Austria
- Ireland
- Malta
- Romania
- United Arab Emirates
- Australia
- Croatia
- Finland
- Japan
- Luxembourg
- Saudi Arabia
- Slovakia
- Slovenia
- Taiwan
- Worldwide
- 22 more »
- « less
-
Program
-
Field
-
California State University, San Bernardino | San Bernardino, California | United States | 6 days ago
decisions and carry through actions having implications with regard to other program or service areas Services Office. Preferred Qualifications: Experience in the analysis and application of academic
-
avancées des casques de réalité étendue permettent d'intégrer des éléments 3D dans l'environnement réel (e.g., avatar en 3D) et mettent à disposition une multitude de capteurs (e.g., centrale inertielle, eye
-
, centrifuges, biosafety cabinets, and microscopy systems Record experimental procedures and results in laboratory records Imaging and Image Analysis : Operate confocal, multiphoton, and light microscopy
-
Austrian Academy of Sciences, the Austrian Archaeological Institute OeAI | Austria | about 1 month ago
https://www.oeaw.ac.at/en/oeai/research/historical-archaeology/historische-bauforschung Within the project, a multidisciplinary analysis of the 19th century iron structures of the Austrian monarchy (as
-
for use in labs and lecture demonstrations, including 3D printing, basic software development, and introductory-level circuit design, and consults with machinists in the production of custom-designed
-
Postdoctoral Research Associate, Biomedical Engineering (Multiple Positions) Posting Number req25617 Department Biomedical Engineering Department Website Link https://bme.engineering.arizona.edu/ Location Tucson
-
on methodological development in cryo-electron microscopy (cryo-EM), particularly in image reconstruction and 3D volumetric analysis of macromolecular structures. Rather than aiming to incrementally optimize existing
-
. genome-wide as well as targeted CRISPR- and base editing-based screens for cell fitness or other cellular outcomes), 3D structural biology (i.e. use of Pymol, UCSF Chimera for structural analysis, mapping
-
. This project aims to overcome that limitation by extending our high-throughput metabolic fingerprinting platform into 3D cancer models such as spheroids and organoids. By combining untargeted metabolomics, high
-
the species., as well as the order of their redox potentials [1,2]. A recent study from Murali et al. [3] has confirmed the great structural diversity in the cytochrom bd family. Moreover, the analysis