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Reference : UMR8214-THOPIN0-001
Workplace : ORSAY
Date of publication : Tuesday, September 21, 2021
Type of Contract : FTC Scientist
Contract Period : 12 months
Expected date of employment : 1 January 2022
Proportion of work : Full time
Remuneration : Salary before tax per month between 2 695 € and 3 017 € depending on experience
Desired level of education : PhD
Experience required : 1 to 4 years
The post-doctoral fellow will address the light-induced processes as electron transfer or energy transfer in different photocatalytic systems. He/She will develop the pump-pump-probe resonance Raman setup and perform the mechanistic studies by different time-resolved spectroscopies.
He/she will be involved in all light-induced studies in the laboratories, inluding time-resolved charge accumulation studies using the pump-pump-probe setups as well as time-resolved FTIR experiments. He/she will also set-up resonance Raman spectro-electrochemical measurements integrating devices on the spectro-electrochemical cell within the consortium.
Strong background in time-resolved UV/VIS spectroscopy and vibrational spectroscopy (IR, Raman) with experiences in instrumental development is highly desirable. Knowledges on artificial photosynthesis or photophysics (energy transfer, charge transfer) are required.
The postdoctoral fellow will work at ISMO (UMR8214) in the Systemae research group. This position is open as part of a collaborative project funded by the National Research Agency (LOCO: Activation induced by CO2-induced light and electrons dual mechanism). This is a collaborative project with a team at the ICMMO and a team at the Institute of life sciences FRÉDÉRIC-JOLIOT at CEA. The ISMO Bât 520- Molecular Sciences Institute of Orsay is located on the Orsay campus at the University Paris-Sud. The experiments will be performed at ISMO and CEA..
Constraints and risks
The experimental activities will make use of chemicals : solutions comprising the molecules synthesised by our collaborators at ICMMO within several solvents. Lasers (class 4) will be used regularly. The experiments can be conducted in the dark when needed for the detection of weak signals.
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