Sort by
Refine Your Search
-
Country
-
Employer
-
Field
-
This Post Doc position at the Department of Plant and Environmental Sciences (PLEN), University of Copenhagen, is a 2-year research fellowship within the Algae Biochemistry group led by Assoc
-
Job Summary MAScIR-UM6P is seeking a highly motivated and skilled postdoctoral researcher to join our interdisciplinary team studying the biology of microalgae and soil cyanobacteria. This position
-
Goldstein FRS to work on experimental aspects of (a) the biomechanics of multicellular choanoflagellates and (b) the growth and mechanics of the extracellular matrix in green algae, supported by
-
metabolism with applications in neuron development B. Multiscale physiological response of reef-forming marine algae to environmental stress C. Financial Risk Management and Decision Making in Biodiversity
-
aims to provide new targets for bioengineering crops, algae, and other photosynthetic organisms to improve their photosynthesis efficiency and enhance their resistance to environmental stresses while
-
fermented proteins, mycoproteins, algae, plant-based proteins and insects). The focus is on environmental sustainability assessment based on life cycle assessment (LCA), but also other dimensions
-
Murphy. CEEES focus on renewable gaseous biofuel production (biohydrogen and biomethane) from substrates such as wastes, agricultural residues and lignocellulosic energy crops, macro-algae (seaweed) and
-
, Environmental Biology, Soil Science, or a related field. Strong background in microbial ecology, especially in cyanobacteria or microalgae biology. Strong experience in soil biological analysis Proven ability
-
pioneering innovative research in algal biotechnology and bioprocess engineering. Together, we aim to drive sustainable solutions using algae for a greener future. We look forward to welcoming a dedicated and
-
forms. The ideal candidate must have extensive experience culturing marine phytoplankton, particularly marine diatoms and/or cyanobacteria, and a strong background in molecular-level mechanisms