Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- Portugal
- France
- United Kingdom
- Germany
- Sweden
- Norway
- Netherlands
- Poland
- Singapore
- Spain
- Denmark
- Belgium
- Italy
- Australia
- Finland
- United Arab Emirates
- Czech
- Ireland
- Austria
- Switzerland
- Luxembourg
- Estonia
- Romania
- Japan
- China
- Morocco
- Canada
- Latvia
- Lithuania
- Brazil
- Greece
- Croatia
- Cyprus
- Andorra
- Hong Kong
- Israel
- Iceland
- India
- Mexico
- Taiwan
- Vietnam
- Europe
- Malta
- Sao Tome and Principe
- Saudi Arabia
- Slovakia
- Slovenia
- 38 more »
- « less
-
Program
-
Field
- Computer Science
- Engineering
- Medical Sciences
- Economics
- Science
- Biology
- Materials Science
- Mathematics
- Business
- Chemistry
- Education
- Psychology
- Electrical Engineering
- Earth Sciences
- Environment
- Law
- Arts and Literature
- Physics
- Humanities
- Linguistics
- Social Sciences
- Philosophy
- Sports and Recreation
- 13 more »
- « less
-
advantageous but not mandatory: Simulation sciences, ideally modelling microswimmers, Wet-Lab work, Different forms of microscopy Our Offer: We work on the very latest issues that impact our society and are
-
heavily relies on empirical determination of key model parameters. By combining protein structure descriptors, molecular simulations, and machine learning, this PhD project seeks to predict ion-exchange
-
science » Modelling tools Chemistry » Biochemistry Chemistry » Computational chemistry Researcher Profile First Stage Researcher (R1) Application Deadline 31 Mar 2026 - 21:59 (UTC) Country Finland Type of Contract
-
procedure, and a declaration of familiarity with these rules - the current application form is available at https://www.idpan.poznan.pl/en-us/recruitment A copy of the degree certificate confirming graduation
-
the field of research projects https://www.ncn.gov.pl/sites/default/files/pliki/uchwalyrady/2024/uchwa… Other criteria The perfect Candidate (F/M) is expected to: • have documented experience in
-
Details The aim of this project is to combine nanomechanical methods with modelling (i) to develop quantitative, predictive models for the behaviour of molecules in sliding contacts, and (ii) to understand
-
Objectives: - Completion of the characterization of nanomateriais on in vivo models of vaccination - Completion of the characterization of nanomateriais on in vitro and in vivo cancer models - Analysis
-
reliably stratify patients based on their fracture risk. The position is funded as part of Horizon 2020 European Project (https://www.metastraproject.eu/ ) that aims to provide a combination of models
-
of simulation models, development of performance measures, and studying and understanding trends and relationships from big datasets Documenting research activity and disseminating/presenting key findings and
-
supported by COMMLab, 6GSPACE Lab, HybridNetLab, QCILab, TelecomAI Lab, CSAT Lab, our SW Simulators, and our Facilities. For further information, you may refer to https://www.uni.lu/snt-en/research-groups