Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- France
- United Kingdom
- Germany
- Sweden
- Netherlands
- Belgium
- Portugal
- Norway
- Switzerland
- Czech
- Denmark
- Spain
- Canada
- Finland
- Australia
- Austria
- Estonia
- Singapore
- Poland
- Hong Kong
- United Arab Emirates
- Italy
- Ireland
- Japan
- Luxembourg
- Morocco
- Romania
- Brazil
- India
- Lithuania
- Slovakia
- Slovenia
- Taiwan
- 24 more »
- « less
-
Program
-
Field
-
for (including our assessment rubric); details of financial support, training, and placement opportunities available; and details of our recruitment process, can be found at https://accedtp.ac.uk/, in
-
participatory research methodologies that address social and spatial inequalities. Candidates will be expected to work proactively across disciplinary boundaries, coordinating research activities and contributing
-
join our dynamic research team. Our work focuses on craniofacial regeneration and distraction osteogenesis, using cutting-edge multi-omic approaches (single-cell and spatial transcriptomics, genetic and
-
of novel probabilistic deep-learning models that automatically extract mechanistic and statistical knowledge from your in vivo perturbational omics data. This interdisciplinary atmosphere has been a main
-
testing of breast milk for HIV nucleic acid; dissection of human placental tissue for isolation of primary cells, cytokine assays, and preparation for spatial transcriptomics; and development of 3D models
-
with EDF UK. The project offers the chance to develop skills in agent based modelling spatial-analysis, optimisation and economic analysis, as well as contribute to the UK’s decarbonisation. How to apply
-
interpretation, predictive model outputs, and spatial insights. Document project needs, timelines, and deliverables while maintaining open communication with collaborators. Support proposal development and data
-
the fall of 2025 or early 2026. The UNFoLD lab specialises in the experimental measurements, analysis, and modelling of unsteady vortex-dominated flow phenomena, with applications in bio-inspired propulsion
-
translational value. Dr. Hopp’s lab utilizes state of the art models and technologies which include multiomic approaches (scRNAseq, spatial RNAseq, spectral flow cytometry, metabolomics etc.) to understand each
-
model organisms in their work and are pushing into emerging model and non-model organisms that are proving uniquely valuable in particular studies. To learn more about our department, https