Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
- Durham University
- University of Twente
- ICN2
- Nature Careers
- Aalborg University
- Argonne
- CWI
- Chalmers University of Technology
- European Space Agency
- Iowa State University
- Leibniz
- SUNY Polytechnic Institute
- Technical University of Denmark
- University of Groningen
- University of North Texas at Dallas
- University of Oregon
- Wageningen University and Research Center
- 7 more »
- « less
-
Field
-
construction materials? And collaborate within an international consortium of architects, materials and textiles scientists, and engineers to help translate bio-inspired knowledge to the development of modular
-
lead and drive a research line focused on bio-inspired materials for applications in health and environmental remediation. This includes developing new materials, mastering characterization techniques
-
lead and drive a research line focused on bio-inspired materials for applications in health and environmental remediation. This includes developing new materials, mastering characterization techniques
-
materials, inspire minds to solve problems, and address some of the most challenging issues facing our world today. We promote and believe in a culture of civility and shared ownership in support of
-
, Business, Engineering, and Health Sciences--preparing graduates to lead in a rapidly evolving global landscape. Guided by a bold vision for societal impact, SUNY Poly advances use-inspired research and
-
, or related fields. Candidates are expected to have a demonstrable interest in bio-inspired neural networks and probabilistic approaches, and to have an excellent command of English. Needed
-
translational way, to develop novel real-time bio-inspired assistive technologies. Our goal is to establish a roadmap for discovering fundamental principles of movement at the interface between humans and
-
interested in organometallic and bio-inspired strategies to achieve new patterns of selectivity in bond activation and formation, with the goal of enabling practical and environmentally benign syntheses
-
with the neuromuscular system to improve movement. We apply artificial intelligence, computational modelling and biological signal processing, in a translational way, to develop novel real-time bio
-
the neuromuscular system to improve movement. We apply artificial intelligence, computational modelling and biological signal processing, in a translational way, to develop novel real-time bio-inspired assistive