Page 2 of 2, masters Programs in Molecular Sciences
Page 2 of 2, compare 27 Masters Programs in Molecular Sciences
27 Results in Molecular Sciences
This program is an interdisciplinary program of study and designed to provide students broad training opportunities in the field of Neurobiology.
The Master provides an academic training that allows a specialisation, after obtaining the degree of access of experimental or health sciences.
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.
This is a Masters degree designed to train students in the field of Nanoscience and Nanotechnology in order that they can develop a career in this field, or start a research activity leading to a doctoral thesis. Areas of knowledge that is inscribed: mainly in the areas of chemistry, physics, engineering, materials science, biochemistry, pharmacy and medicine. The theme of the Master is at the intersection of Nanoscience / Nanotechnology and molecular systems. Therefore affect scientific areas of current interest like Molecular Electronics, Molecular Magnetism, Supramolecular Chemistry, Surface Physics or Science of Molecular Materials.
The programme aims to provide in-depth knowledge of molecular systems and advanced tools for successful careers in industry, academia, and society. The focus is on the molecular design, characterization, and applications of molecular structures and materials, and also includes aspects of innovation, environmental issues, sustainability and safety.
The Biochemistry, Molecular, and Cell Biology Master’s Degree offers highly specialized cross-disciplinary training in a vast number of fields in the Life Sciences, from biochemistry to cell biology by way of genetics and molecular biology.
The aim of the Applied Biotechnology study program is to – prepare specialists with high quality and up-to-date training in a highly interdisciplinary field of Applied biotechnology with a focus (specializations) on Plant (Horticulture, Agriculture and Forest) Biotechnology and Innovative Bioelectrotechnologies, who would be able developing new products and technologies, work in positions with high levels of responsibility in research and educational institutions and industry, related to biotechnology, biomedicine, and food industry, as well as pursue their studies at the doctoral level.
Graduates will be able: to analyze molecular diversity, structure, composition, to characterize biological systems, their functioning and interaction: genomics, proteomics, metabolomics; to understand principles of immune and other systems, their structures, integration with other vital systems of biological objects; etc.
With this second cycle course in Comparative and Technological Molecular Genetics, we intend to transmit essential knowledge related to recent advances in the area of comparison of genomes and DNA manipulation technologies, both in animal and plant organisms.
The LM course in Molecular and Cellular Biology aims to supplement the basic knowledge, acquired through the Bachelor's degree in Biology, in some key areas of the biological sciences and to provide advanced preparation and operational framework at the level of biological phenomena cellular, sub-cellular and molecular. In particular, the LM course has the objective to provide a preparation ...
The two years Master Course in Molecular Biotechnology is designed to provide the cultural background of multidisciplinary biotechnologies for the production of goods and services through the use of biological systems.
This division provides education programs focusing on protein sciences and has four main lecture contents that are grappled with in Proteo-Science Center: infections molecular science, photo-life science, molecular life science, and protein function science.
A joint postgraduate programme in Nanoscience and Technology, initiated by the Schools of Science and Engineering, can offer long-term support to our ongoing research and training as well as to the development of technology and to commercialization efforts. The MPhil programme aims to strengthen students’ fundamental knowledge of Chemical Engineering, with specialization in the areas of chemical processing, materials, environment, energy, and bioengineering.
Energy Technology research covers many areas, including sustainable technology, conventional technology, and energy efficiency and conservation. The MPhil programme aims to strengthen students’ fundamental knowledge of Chemical Engineering, with specialization in the areas of chemical processing, materials, environment, energy, and bioengineering.
The MPhil programme aims to strengthen students’ fundamental knowledge of Chemical Engineering, with specialization in the areas of chemical processing, materials, environment, energy, and bioengineering. Students will be exposed to relevant issues involved in the scientific research, technology development and commercial applications in the field.