Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
Basque Center for Macromolecular Design and Engineering POLYMAT Fundazioa | Spain | about 2 months ago
situ. It combines innovative photochemistry, polymer synthesis, and end-of-life strategies to create recyclable and biodegradable materials. Applicants must have a BSc and MSc in Chemistry, Material
-
therapeutic options in cancer therapy. Therefore, the candidate will combine the polymerization of N-carboxyanhydrides and solid phase peptide synthesis to develop precision polymers and functional
-
research clusters including Energy Transition, Surface Technology and Metallurgy, Polymers and Composites, and Sustainable Materials. With some 100 researchers and PhD students and several national and
-
familiarity with standard cell biology techniques (mandatory). Background knowledge in polymer chemistry, hydrogel synthesis, or biomaterials characterization is a strong plus. Excellent communication and
-
3d colloidal model system. Background information: https://paddyroyall.github.io/padrus/Work_amoeba.html Publications of interest : https://paddyroyall.github.io/padrus/Publications.html Systems in
-
of Pharmacy. The project will focus on the synthesis of polymers that resist the formation of biofilms and the development of processes to formulate / process them into new health/consumer care products e.g
-
Infrastructure? No Offer Description The research topics and studies will largely involve conducting biomedical research focused primarily on the synthesis of drug nanocarriers based on polymeric nanoparticles
-
this role, you will contribute to the synthesis of high-performance cathode materials, binders for zinc-ion batteries, and develop sustainable electrode manufacturing technologies. You will prepare aqueous
-
, Polymers, and Processes Laboratory (CP2M, UMR CNRS 5265) in Villeurbanne, within the theme “Surface Organometallic Chemistry for Catalysis.” Surface organometallic chemistry is a major research axis of CP2M
-
synthesis to develop precision polymers and functional nanomedicines based on these materials. Afterwards, anticancer drugs will be covalently attached by disease responsive covalent bonds. The Functional