Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Employer
- University of Helsinki
- AALTO UNIVERSITY
- Tampere University
- UNIVERSITY OF HELSINKI
- University of Oulu
- University of Turku
- University of Jyväskylä
- Åbo Akademi University
- Itä-Suomen yliopisto
- LUT University
- VTT
- University of Vaasa
- University of Eastern Finland
- Aalto University
- Academic Europe
- Natural Resources Institute Finland (Luke)
- TAMPERE UNIVERSITY
- ;
- Geological Survey of Finland
- 9 more »
- « less
-
Field
-
country known for its high quality of life, excellent education system, and robust support for research and innovation. How to apply? Welcome with your application in English (click the ‘apply’ link), as
-
professorship’s fields of research include the following: nuclear power plant engineering, including commercial-scale nuclear reactors nuclear energy conversion process modelling, design and optimisation nuclear
-
experience and expertise and describing why the applicant is interested in this position. Also career plans should be described here. Research plan (max 3 pages) describing applicants research interests and
-
, designed from the molecular level. Your role and goals We are seeking for a Master’s student to work with us on the synthesis and characterization of an organogels. This project will involve radical
-
international high-tech operating environment. You will get a professional and inspiring work community and a mentor to support your work. Together we will draw up a plan for advancing on your career path. We
-
. Job description The 2-year project will include the development of stimuli-responsive hybrid organic-inorganic materials for smart and sustainable energy technologies. This will include molecular design
-
innovation, with the aim to combine fundamental and application-oriented research and teaching within an interdisciplinary collaborative setting. Please read more about the University of Turku as an employer
-
-responsive hybrid organic-inorganic materials for smart and sustainable energy technologies. This will involve molecular design as well as synthetic and solid-state material chemistry methodologies, which will
-
, physics, material science, and (bio)engineering, thus stimulating cooperation and innovation, with the aim to combine fundamental and application-oriented research and teaching within an interdisciplinary
-
include the development of smart and sustainable energy technologies based on stimuli-responsive hybrid organic-inorganic materials. This will involve supporting the research efforts on molecular design as