Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- Netherlands
- France
- Germany
- Sweden
- Portugal
- Denmark
- Belgium
- Switzerland
- Czech
- Canada
- Spain
- Austria
- Norway
- Finland
- Italy
- Australia
- Singapore
- Morocco
- United Arab Emirates
- Estonia
- Hong Kong
- Ireland
- Poland
- Romania
- Japan
- Taiwan
- Brazil
- China
- Croatia
- Cyprus
- Europe
- Greece
- Lithuania
- Luxembourg
- Macau
- 27 more »
- « less
-
Program
-
Field
- Computer Science
- Biology
- Medical Sciences
- Economics
- Earth Sciences
- Mathematics
- Engineering
- Science
- Environment
- Social Sciences
- Humanities
- Materials Science
- Arts and Literature
- Chemistry
- Business
- Linguistics
- Electrical Engineering
- Design
- Education
- Psychology
- Sports and Recreation
- Physics
- 12 more »
- « less
-
networks, and how these can be exploited for therapeutic intervention. We employ state-of-the-art in vitro and in vivo models to dissect cancer biology and develop new strategies to target key
-
bright points to solar jets, called spicules. The study will involve mathematical modelling complemented with observational data analysis using high spatial, temporal and spectral resolution solar
-
on developing ecosystem models for high-latitude ecosystems and to scale-up these spatially as well as temporally using state-of-the-art ecosystem models. Your profile The successful applicant must have obtained
-
cells in situ without disrupting the spatial organization of the bacterial colony. Please visit our website for further details: http://nollmannlab.org/ Relevant Publications: Rombouts et al, Nature
-
Cooperative Extension Area Citrus and Pistachio Advisor - Serving Kern and Kings Counties (AP 25-34)
University of California Agriculture and Natural Resources | Bakersfield, California | United States | 24 days agoresource management leveraging remote sensing, soil moisture sensors, and predictive modeling to address drought conditions and comply with the Sustainable Groundwater Management Act (SGMA) Climate-resilient
-
. The project follows a bedside-to-bench-and-back approach, utilizing human tissue single-cell and spatial multi-omics at disease remission (inflammation resolution), human tissue organoids, and the use and
-
the localisation of inflammation in the joints. The project is based on a bed-to-bench-and-back approach , utilising human tissue single-cell and spatial multi-omics , engineered CAR-T cells,human organoids , and
-
simulation concepts with experience in wildfire modeling and loss assessment and regional planning of communities at the wildland-urban interface (WUI). Successful candidates will contribute to the development
-
change. Experience in quantitative methods, spatial analysis, or handling large datasets would be valuable, but full training will be provided in climate modelling, statistical downscaling, and health
-
include collecting and analyzing spatial data, assisting with fieldwork and data collection activities, and contributing to the preparation of research reports and presentations. Additional Department