Master Degree in Molecular Sciences in France

Search Master's Degrees in Molecular Sciences in France

Molecular Sciences

A masters is the first level of graduate coursework and can be obtained after you receive a bachelor’s degree. Earning a masters usually requires two years of full-time study, which amounts to 36 to 54 semester credits.

 

Study in molecular sciences can open up many innovative and new scientific fields to pursue, including molecular neuroscience, cytogenetics, molecular genetics, molecular basis of monogenic diseases, molecular virology and immunology, and the molecular basis of complex diseases.

France offers a superb higher education system to not only its citizens but also foreigners. The country's dynamic culture attracts foreign students and those interested in pursuing international courses. France has a tradition of scientific and technological innovation. This ensures that scholars fully utilize their creativity.

Master Degree in Molecular Sciences in France

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Master's degree in Synthesis, Catalysis and Molecular Design

Universitat Rovira i Virgili
Campus Full time

This master's degree offers a scientific training in theoretical knowledge of the field and new techniques of product synthesis, catalyst development, management of environment-friendly chemical processes, and computational design. It is primarily research-oriented, so graduates will be able to undertake research, development and innovation in industry... [+]

Top Master's Degrees in Molecular Sciences in France. Master's degree in Synthesis, Catalysis and Molecular Design This master's degree provides students with in-depth theoretical knowledge of the field and new techniques in product synthesis, catalyst development, management of environment-friendly chemical processes, and computational design. It is primarily research-oriented, so graduates will be able to undertake research, development and innovation in industry. The general objectives are the following: i) To provide high-level scientific training in the fields of: molecular synthesis, catalysis and design, so that graduates can undertake doctoral studies and pursue a scientific or academic career. ii) To provide graduates with a capacity for innovation and the necessary skills to synthesise sustainable chemical products and processes in the professional world. The aims of the courses are the following: To enable students to use synthetic methodologies and design ways of obtaining new products with the tools of computational chemistry. To familiarise students with modern techniques for characterising molecular compounds, surfaces and solids. To provide tools for understanding the most advanced principles and applications of catalysis. To train students to design chemical processes on a laboratory or industrial scale through channels that meet the standards of sustainability and environmental friendliness. To provide students who wish to undertake doctoral studies with more advanced, specific knlowledge relevant to their research: synthesis, catalysis or modelling. Career opportunities The master's degree is primarily research-oriented but the training is suitable for students who wish to pursue a career in the manufacturing sector. It offers the following career opportunities: Undertaking doctoral studies. Access to leading sectors of production that have interdisciplinary research groups. The spectrum is broad, as most industrial processes require a catalyst. However, the sectors with which the master's degree is most involved are those of fine chemicals in general: synthesis of intermediates, pharmaceutical chemistry, agricultural chemistry, plant protection products and synthesis of polymers and smart materials. Graduates will be able to design and develop new products and processes in chemical companies in general. Language of instruction English Student Profile This master's degree is designed for students who have an official university degree in chemistry, chemical engineering or a related science. FIRST YEAR: Compulsory Subjects Introduction to Computational Chemistry Structural Determination Techniques** Multidisciplinary Seminars Final Master's Project** ** These subjects make up the competences requiered for the subject Career Counselling Citizenship. Optional Subjects In this section you will find the list of all the optional subjects on the curriculum. Before you select the subjects you wish to register for, please make sure that they have been activated Students must study two of the subjects marked *. This choice will be made in consultation with the tutor. Characterisation of Solids and Surfaces * Catalytic Materials and Heterogeneous Catalysis * Methods of Synthesis and Synthetic Analysis * Organometallic Chemistry and Homogeneous Catalysis * Asymmetric Synthesis * Theoretical Methods for Determining Electronic and Molecular Structure * Computational Modelling in Catalysis and Materials * Sustainable Chemistry: a Catalytic Approach Nanostructured Polymeric Materials Nanocatalysis Supramolecular Chemistry BRIDGINS COURSES: Structural Determination Organic Synthesis Spectroscopy Chemical Kinetics Organometallic Compound Coordination Compounds Crystallography After checking the candidate’s transcript, the body responsible for admission can decide that the student must attend and satisfactorily complete some of the subjects that are programmed as bridging courses. Admission qualifications An official university bachelor's or pre-EHEA degree in Chemistry, Biochemistry, Pharmacy, Biology, Chemical Engineering, or a related field. Specific documentation A part from the compulsory documentarion to pre-enrole to the programme, students must do submit the following documents: documentación adicional: Proof of knowledge of English Letter of motivation for the master's degree Selection criteria Pre-enrolled students will be selected according to the following criteria: Academic record: up to 50 points Suitability of the students' first degree: up to 20 points Curriculum vitae: up to 10 points Competence in English (minimum level B1 of the Common European Framework of Reference): up to 20 points (B2, 5 points; C1, 10 points; C2, 20 points). [-]

Master in Particle Physics

Blaise Pascal University
Campus Full time September 2017 France Clermont-Ferrand

You have a degree in physics or physical chemistry, our M1 allows you to deepen your knowledge of General Physics (electromagnetism, Fluid Mechanics, statistical physics, quantum mechanics, nuclear physics, instrumentation…). [+]

Master in Particle PhysicsYou have a degree in physics or physical chemistry, our M1 allows you to deepen your knowledge of General Physics (electromagnetism, Fluid Mechanics, statistical physics, quantum mechanics, nuclear physics, instrumentation…). You can choose in the second half a hundred hours of introduction to research in particle physics, and have the ability to make an introductory course in search of two and a half months in a laboratory. Obviously useful for those who wish to use in research academic, these teachings are an opening for other working methods of research and deepening discipline always transferable to other areas.Already have an M1 physics or physical chemistry, M2 will immerse you in our research in particle physics with courses that address both the theoretical concepts related to fundamental interactions (principles of symmetry, quantum field theory, gauge invariance ...) that instrumental methods which allow us to probe the nature : principles of detections implementing acquisition systems and data processing. Optional courses can also be an opening in the field of cosmology and astroparticle, either to radiation-matter interactions and their applications in the field of radiation. The second year ends with a research internship of five months in the laboratory.All specialty courses are taught by faculty members and researchers from the Laboratory of Particle Physics (University Blaise Pascal - CNRS/IN2P3) participating in international research programs such as the CERN (European Laboratory for Particle Physics).A Research Master course is a prerequisite for doctoral studies follow. But it is also an end in itself. Mastery of a scientific discipline, the handling of advanced concepts or ownership issues and current techniques of field research are all skills to your employability and your assets in homebuilding. Physics leads to everything !... [-]