Molecular chemistry contributes to the well-being of our society through the preparation of everyday consumer products (medicines, cosmetics, food/phytosanitary products, organic photovoltaic cells, OLED screens, (smart) materials for the automotive and textile industries https://chempire.net/, etc.
This master's degree trains future high-level executives who master the latest technological innovations in the field of molecular chemistry. The objective of this master's degree in chemistry is to prepare and support the student in the construction and finalization of their professional project. After a first year of M1 common to the different courses, allowing transversal training in chemistry, the Master 2 course mentioning Molecular Chemistry prepares you for activities such as:
Chemical engineer in research and development (conducting research projects, design and development of new products or processes, optimization studies of existing products and processes);
Technical-commercial framework;
State or territorial official;
Pursuing doctoral studies to be a researcher in a public research organization, teacher-researcher in higher education; Research engineer, company research and development team leader.
The knowledge provided as part of this master's degree allows students to acquire skills ranging from the synthesis of new compounds to the development of existing materials and/or materials whose characteristics it is necessary to understand and control for optimization. of their properties and their applications in various industrial fields. In particular, the master's degree gives the student the tools and abilities necessary to establish the best strategies for designing molecules for fine chemistry, with biological activity or for the environment, and molecular materials including for nanotechnologies. . In this course, students are also confronted with tools allowing them to innovate in the face of the challenges of green (or sustainable) chemistry and the rational use of bioresources. They are also enabled to understand and choose the best methods to characterize the synthesized products. Students also know how to establish the structure-property relationships of molecules, evaluate their potential applications, disseminate and promote their results in the form of reports, presentations, communications, transmit their knowledge and update their knowledge through bibliographic research and active participation in professional meetings. Transversal skills (management, communication, etc.) are also at the heart of the training in order to promote integration into the workplace.
A first research stay in M1 (3 to 5 months) followed by an internship in M2 in an academic research laboratory or in a company (4 to 6 months) of a fundamental or applied nature completes the experimental and theoretical. Thanks to the strong involvement of research laboratories as close as possible to the state of the art, they focus on current themes. Mobility opportunities can be offered in Europe and outside Europe.
This disciplinary training in molecular chemistry meets the current needs of manufacturers who, to develop new products, require graduates with very good knowledge of chemistry, particularly eco-responsible chemistry (applied and fundamental), and in management and management.
Opportunities are possible in the following areas (non-exhaustive list):
Fine chemicals: textiles, paints, plastics;
Heavy chemicals: Petrochemicals;
Pharmacy (design, synthesis, analysis of active ingredients);
Cosmetics, perfumery -Agriculture (insecticides, fungicides, pesticides, fertilizers);
Agri-food (quality control of ingredients and finished products, intermediary between producer and consumer, creation of new products, oenology, etc.);
Energy (petroleum products, chemical energy conversion, biofuels, solar cells, OLEDs, thermoelectricity, hydrogen, etc.);
Environment (valorization of biomass, analysis of air, water, soil and living organisms);
Repression of fraud, scientific police.
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