Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- Portugal
- France
- Morocco
- United Kingdom
- Sweden
- Germany
- Poland
- Spain
- Belgium
- Netherlands
- Japan
- Singapore
- Saudi Arabia
- Czech
- Denmark
- Switzerland
- United Arab Emirates
- Canada
- Mexico
- Australia
- Austria
- Finland
- Italy
- Norway
- Romania
- Andorra
- Brazil
- China
- Croatia
- Estonia
- Hong Kong
- Ireland
- Malta
- 24 more »
- « less
-
Program
-
Field
-
of plasma polymers that can be further directed to generate original and in situ bottom-up processing strategies. This thesis is part of the research project PHOTOPLASMA, financed by the French National
-
the mechanical properties of conjugated polymers and on the development of spinning processes for the manufacture of conducting polymer fibers for wearable electronics. A summary of the research field can be found
-
of Chemistry in College of Arts + Sciences at Indiana University Bloomington is a diverse and well-established research community, consistently ranked among the top chemistry programs in the U.S. We are home to
-
of Chemistry in College of Arts + Sciences at Indiana University Bloomington is a diverse and well-established research community, consistently ranked among the top chemistry programs in the U.S. We are home to
-
Research organisation: University of Nottingham Industrial partner: AstraZeneca Application deadline: 10 March 2026 Start date: October 2026 (or as soon as possible thereafter) Funding: Fully funded
-
Repurposing Polymers and Drugs for Sustainable Therapeutics: Polymer Functionalisation, High-Throughput Screening, and In Vivo Evaluation of Amorphous Solid Dispersions Research organisation
-
Carbon Capture Crops School of Biosciences PhD Research Project Self Funded Prof Julie Gray, Prof Katie Field Application Deadline: Applications accepted all year round Details To avoid climate
-
group’s research advances polymer network design to achieve high mechanical performance for the evolving demands of modern technologies. For more details, please view https://www.ntu.edu.sg/mse/research
-
-healing polymers that will be exploited in this project in robotic phantoms. Moreover, the Soft Tissue Biomechanics (STB) research group of Katholieke Universiteit Leuven is connected in this project
-
contribute to exciting research in a collaborative and dynamic environment. This position offers an opportunity to take part in advanced research on the design and synthesis of porous polymers. You will work