Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- Germany
- Australia
- France
- Sweden
- Netherlands
- Canada
- Belgium
- Norway
- Denmark
- Spain
- Portugal
- Ireland
- Switzerland
- Austria
- Finland
- Italy
- Czech
- Poland
- Singapore
- New Zealand
- China
- Japan
- United Arab Emirates
- Luxembourg
- Hong Kong
- Morocco
- Latvia
- Cyprus
- Brazil
- Estonia
- Slovakia
- Iceland
- Romania
- Ukraine
- Egypt
- Greece
- Lithuania
- Mexico
- Slovenia
- South Africa
- Worldwide
- Andorra
- Barbados
- Bulgaria
- Czech Republic
- Fiji
- Guinea
- South Korea
- Taiwan
- 41 more »
- « less
-
Program
-
Field
- Medical Sciences
- Economics
- Computer Science
- Business
- Biology
- Engineering
- Science
- Materials Science
- Education
- Arts and Literature
- Mathematics
- Psychology
- Social Sciences
- Chemistry
- Linguistics
- Law
- Humanities
- Sports and Recreation
- Environment
- Earth Sciences
- Design
- Electrical Engineering
- Philosophy
- Physics
- Statistics
- 15 more »
- « less
-
. 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
-
are submitted via Interfolio at: https://apply.interfolio.com/183735. Applicants must submit a letter of application including a statement of teaching interests & experience, a CV, and at least one sample
-
acquisition techniques are combined to extract nanoscale dimensional information well below conventional diffraction limits. These measurements are optimized by tailoring the illumination so as to yield
-
the Warburg effect and the redox potential of these cells, with potential therapeutic implications. Our approach, which combines synergistic methods that target multiple metabolic pathways (3-4), aims
-
the enhancement of the efficiency or figure of merit of the stacks. Moreover, (ii) by using and combining various experimental techniques and methods available at the laboratory (harmonic Hall, spin pumping, FMR
-
engineering research since 2016. MNMT- Dublin has particular focus on instruments development and high precision manufacturing combined with optical and bio-medical technologies applied in optical image, visual
-
” team. Website: https://cermav.cnrs.fr/en/equipe/physico-chemistry-and-self-assembly-of… Team Leader: R. Borsali The successful candidate will be responsible for synthesizing glycopolymers based
-
characterization platform for innovative materials by combining advanced experimental techniques, physics-based mesoscopic modeling, and artificial intelligence. Within this context, high-throughput experiments and
-
algorithms have been developed, most based on a hybrid architecture combining transform coding and predictive coding. Standards such as H.264/AVC, HEVC, and VVC follow this principle. While they offer highly
-
to characterize new mechanisms of epigenome stability, combining experimental and computational analyses. Research Environment The laboratory is part of the Unit of Genome Integrity and Cancers (UMR9019