|
|
| (35 intermediate revisions by the same user not shown) |
| Line 20: |
Line 20: |
| == Euraxess Offers == | | == Euraxess Offers == |
|
| |
|
| === PhD Position in Bioinspired Variable-Stiffness Textiles for Soft Robots (# of pos: 2) ===
| | No open positions. |
| | |
| ; Organization : University of Tartu
| |
| ; Research Field : Chemistry › Instrumental techniques, Engineering › Materials engineering, Physics › Applied physics
| |
| ; Researcher Profile : <nowiki>First Stage Researcher (R1)</nowiki>
| |
| ; Deadline : 09/02/2020 21:00 - Europe/Athens
| |
| ; Location : Estonia
| |
| ; Type Of Contract : Temporary
| |
| ; Hours Per Week : 40
| |
| ; Job Status : Full-time
| |
| ; Requirements
| |
| | |
| | |
| :; Education Level : Physics: Master Degree or equivalent
| |
|
| |
| Chemistry: Master Degree or equivalent
| |
|
| |
| Engineering: Master Degree or equivalent
| |
|
| |
| Biological sciences: Master Degree or equivalent
| |
|
| |
| Technology: Master Degree or equivalent
| |
| :; Languages : ENGLISH: ExcellentSee [https://euraxess.ec.europa.eu/jobs/479152 the offer] on Euraxess website.
| |
| | |
| <p></p><p>We offer a 4-year PhD position in Bioinspired Variable-Stiffness Textiles for Soft Robots. This project aims to develop a variable-stiffness material that finds application in wearable textile-integrated solutions for healthcare and medicine. The Doctoral Candidate transfers the stiffness variation mechanisms found in natural cells and tissues to a textile platform. The electrochemically controlled variable-stiffness textile conforms to human bodies and demonstrates high level of safety, enabling devices in direct physical contact to humans.</p>
| |
| <p></p>
| |
Latest revision as of 04:05, 27 November 2022
Research Areas
We are looking for motivated students, PhD students and scientists in the following research areas:
- Modeling polymer materials (Quantum chemistry, molecular dynamics, FEM)
- Synthesis and design of electroactive polymer materials and actuators.
- Physical and chemical characterization of polymer materials.
- Cyclic flow-electrode capacitor development
- Electromechanical characterization and validation of electroactive polymer actuators and sensors.
- Electromecahnical modelling of EAP materials (FEM, Electromechanicalmodels)
- Radiation damage of materials
- Biologially inspired robotics
- Image processing
- Applications of robotics
Positions
Euraxess Offers
No open positions.