Effect of pressure and irradiation on the properties of photoisomerisable spin transition compounds

23 Feb 2024
Job Information

Organisation/Company

Université de Lorraine

Department

CRM2

Research Field

Physics » Condensed matter properties

Researcher Profile

First Stage Researcher (R1)

Country

France

Application Deadline

14 Apr 2024 - 09:09 (Europe/Paris)

Type of Contract

Temporary

Job Status

Full-time

Offer Starting Date

1 Oct 2024

Is the job funded through the EU Research Framework Programme?

Not funded by an EU programme

Is the Job related to staff position within a Research Infrastructure?

No

Offer Description

Scientific background
Determining and analysing the structural organisation of a material is a prerequisite for any understanding of its physical or chemical properties. The study of structure-property relationships is therefore an important step in materials science in order to improve properties or bring out new ones. X-ray diffraction (XRD) is the key technique in this process. In addition to structural analysis of materials in their fundamental state, it is now possible to study structural changes in materials subjected to light irradiation using photocrystallography (X-ray diffraction under in situ light irradiation). In particular, this approach allows to determine changes in intra/inter-molecular bonds, such as ligand isomerisation or photo-induced phase transitions. Applying pressure to a crystal is another external stimulus that can change the properties of a material by modifying its structure in a 'clean' way, i.e. by altering the inter-atomic distances and bond angles without changing the chemical nature of the atoms of the structure. This application of pressure can induce phase, magnetic and/or electrical transitions. In situ XRD can be used to trace the structural origins of such pressure-induced transitions. At CRM2, we have experimental setups to measure DRX under pressure and DRX under light irradiation.

Aim of the thesis
The aim of this thesis is to combine the two constraints (pressure/irradiation) in order to study materials that respond to both stimuli and thus establish structure-property relationships as a function of pressure and irradiation.
To achieve this goal, we are planning two phases:
• the first will be methodological and instrumental, with the aim of setting up devices enabling in situ XRD and infrared (IR) spectroscopy measurements to be carried out simultaneously under the application of pressure and light irradiation.
• The second part aims to apply this methodology to materials that show a dual response, under pressure and irradiation.
We are focusing on iron nitroprusside materials with organic pillars, the choice of which offers great flexibility and structural diversity.
This family of compounds exhibits interesting properties, in particular an atypical kinetic behaviour during the temperature-induced spin crossover (SCO): we observe a broadening of the hysteresis when the cooling/heating rate is reduced [1]. Pressure XRD combined with pressure IR spectroscopy measurements with and without light irradiation will enable a detailed study of the structural evolution of these compounds. By exploring the pressure-irradiation-temperature diagram, we can establish the structure-property relationships by identifying the different mechanisms at work.

[1] Y. Plasencia et al., J. Phys. Chem. Sol. 150, 109843 (2021). Y. Avila et al., Eur. J. Inorg. Chem. 24, e202200252 (2022).

Requirements

Research Field

Physics » Condensed matter properties

Education Level

Master Degree or equivalent

Skills/Qualifications

Crystallography, X-ray diffraction and spectroscopy

Scientific curiosity, autonomy, a taste for experimentation and instrumental development, good
communication skills and a taste for teamwork.

Languages

ENGLISH

Level

Good

Additional Information
Eligibility criteria

Master in physics, chemistry or materials science

Selection process

Stage 1: pre-selection on the basis of applications
Stage 2: interview by a panel (these supervisors + external experts)

Website for additional job details

https://crm2.univ-lorraine.fr/files/2024/02/phd_crm2_cpm_2024-en.pdf

Work Location(s)

Number of offers available

1

Company/Institute

CRM2

Country

France

City

Vandoeuvre les Nancy

Postal Code

54500

Street

Campus Faculté des Sciences - Boulevard des Aiguillettes

Where to apply

E-mail

[email protected]

Contact

City

Vandoeuvre-lès-Nancy

Website

http://crm2.univ-lorraine.fr/lab/fr/

Street

Boulevard des Aiguillettes

Postal Code

54500

E-Mail

[email protected]

Phone

+33 (0)372745649

STATUS: EXPIRED