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Archiv-Übersicht     Angebot Nr. 13832

Angebotsdatum: 10. März 2020
Art der Stelle: Doktorarbeit
Fachgebiet: Chemie > Angewandte Makromolekulare Chemie
Titel des Themas: Post Doc Macromolecular Chemistry (6 years) with Tenure Track Option

Institut: Institute of Applied Synthetic Chemistry
Prof. Robert Liska
Getreidemarkt 9/ E163
1060 Vienna
Tel.: +43 1 58801 163614   Fax.:
Homepage: http://www.ias.tuwien.ac.at/robertliska/ und www.ias.tuwien.ac.at/research-units/mc
E-Mail Kontakt: mail

Beschreibung: In the field of macromolecular chemistry at the Institute of Applied Synthetic Chemistry of TU Wien, a postdoc position for 6 years will be available from September 2020 onwards. There is the option for habilitation and a subsequent tenure track position.
Methoden: Main topics: In recent decades, light-based processes have gained tremendous importance in macromolecular chemistry for modern polymer processing methods such as 3D printing or the emerging field of frontal polymerization. The focus is on the design and synthesis of new classes of initiators (radical, cationic, ...), monomers and network regulators.
Anfangsdatum: 1. September 2020
Geschätzte Dauer: 6 years will be available from September 2020 onwa
Bezahlung: Monthly gross: 3890, -Euro
• Thermoplast-like photopolymer networks by designed synthesis including the following concepts:
- Nanostructured materials through controlled phase separation using block copolymers.
- Interpenetrating polymer networks.
- Polymer backbones with narrow polydispersity through controlled chain transfer.
- Liquid- and semi-crystalline photopolymers through controlled step-growth reactions.

• Modern processes such as hot lithography now open up unique opportunities to use monomers that were previously not processable at room temperature and thus make entirely new polymer classes accessible for this process.

• Epoxy resins are commonly cured as 2K formulations in a time and energy consuming process. The frontal polymerization of epoxy resins represent a milestone in polymer processing technology because they allow 1K formulations to be cured extremely time and energy efficiently. New photo- and thermal-initiators and stabilizers have to be developed

Sonstiges: Conditions for admission: relevant doctoral studies in chemistry with specialization in macromolecular chemistry.

Excellent knowledge, in the field of synthesis of low and high molecular weight organic compounds is required. Furthermore, in-depth experience and proven research achievements in various fields of photopolymerization and 3D printing with corresponding publication activity in international, peer-reviewed journals and acquisition of third-party funds are advantageous. Experience in university teaching (supervision and conception of student laboratory exercises and bachelor theses) is expected. By getting into currently running projects, an efficient start is guaranteed. The goal is to keep a good balance between basic research and industry-related projects.