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Photoredox catalysis by transition metal complexes

About the Project: Our group are interested in diverse applications of supramolecular chemistry, from coordination chemistry and self-assembly to polymer science and molecular photoswitches. For more information our group’s recent research, see https://bevesgroup.wordpress.com/publications/

In this project you will prepare coordination complexes and study their photophysical and electrochemical properties. From this you will understand how these can be most effectively applied to photoredox catalysis, and in multi-component molecular devices and machines. The work will involve a wide range of analytical techniques (NMR, MS, XRD, UV-vis etc) and will involve collaborations with external partners, including in ultrafast spectroscopy.

Skills gained include: Organic and inorganic chemistry synthesis, host-guest chemistry, NMR spectroscopy, optical (UV-vis and emission) spectroscopy, electrochemistry, mass spectrometry, and single crystal X-ray crystallography.

Required: BSc/MSc with Major in Chemistry; some experience with inorganic (coordination chemistry) synthesis; UV-vis spectroscopy; interpreting NMR spectra. A willingness to learn new techniques.

PhD program: At UNSW our PhD program is 3.5 years of full time research, with no coursework requirements.

Eligibility:
· You must meet the English language requirements in order to apply. (https://www.unsw.edu.au/study/how-to-apply/english-language-requirements)

· You must have the equivalent of a 4 year undergraduate degree, with at least 9 months of research and an examined thesis (equivalent to UNSW 1st Class Honours).

Funding Notes

The available stipends will match the Australian Government Research Training Program scholarship (2022 rate = $28,854), plus relocation expenses.

How to apply: email A/Prof. Beves your CV, academic transcript (undergraduate and any postgraduate coursework grades) and the contact details for at least two (2) referees.

Link: https://www.findaphd.com/phds/project/photoredox-catalysis-by-transition-metal-complexes/?p140445