Compare 20 Masters Programs in Nanotechnology
The masters degree in Nanotechnology and Materials Science enables its students to apply their knowledge to substance analysis. It also equips students with sound skills on how to reformulate and generate new applications and products. Students also become familiar with the principal methods of preparation, synthesis and analysis of materials and nano materials. Nanotechnology is a new area of materials science that is transforming the development of novel designer technology. It is concerned with the manipulation of measurements at the nanometer scale – from one to 10 nanometers. This is important in developing and characterizing materials with very special properties. These materials find applications in many technological areas such as electronics, dispersions and coatings, sensors, liquid crystals, ceramics and biotechnology.
A masters program in Nanotechnology equips students with adequate skills to participate in the design, development, characterization and application of smart and clean materials. This rapidly growing multidisciplinary activity has enormous economic, social and environmental benefits and offers worldwide employment opportunities. A masters program in nanotechnology is designed to enable you to learn at the forefront of this new science, where knowledge meets innovation and imagination. Applying masters in Nanotechnology in developing research, synthetic and analytical skills, you will be able to shape the future world.
Career options in this field include the following: Entrepreneurship in high technology sectors,and Research in public or private centers.
20 Results in Nanotechnology Filter
The Master in Bioengineering and Nanotechnology is a joint initiative between the Central University and the University Foundation of Health Sciences (FUCS) that develops solutions for the problems facing our society in the fields of health, environment and agriculture, starting from the convergence between the life sciences, the physical sciences and engineering.
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 most spectacular technology is happening at the micro and nano level and you can become an expert in this state of the art technology. We offer you a master's degree program in Micro and Nano Systems Technology, which will open doors to exciting jobs in many different branches.
The aim of this programme is to train new professionals specialised in the field of Nanotechnology, Materials and Chemical Engineering (coming from undergraduate degrees in any of the branches of experimental sciences and technologies: Chemistry, Chemical Engineering, Biochemistry, Biotechnology, Physics, Quantum Chemistry, Biological Chemistry, Microbiology,...) with a clear orientation towards research...
Nanoscale objects exhibit many novel and extraordinary properties that are not found in their macroscopic counterparts. The ability to control matter at the nanoscale will, therefore, benefit all branches of engineering in the next decades,
The department of physics and technology of nanostructures is intended to prepare high-qualified specialists in this field. The modern notion of nanostructures embraces a wide range of materials and devices applicable in absolutely different spheres: from electronics and mechanics to biotechnologies.
Nanotechnology is an exciting field within science and technology related to materials and device structures with characteristic dimensions in the nanometer regime. The labor market in this emerging area is growing significantly, and nanotechnology is penetrating a number of technology sectors.
The infrastructure fee is: $ 12,000 each semester. The curriculum offers its graduates a high level academic training characterized by five central dimensions to develop a multidisciplinary excellence training in the vast field of Nanotechnology and Materials Science and Engineering, which includes the basic studies of the subject, its intimate structure, its atomic configuration, physical, chemical, biological, mechanical, magnetic or electronic properties; generate in the students a deep level of competence in the domain of the diverse analytical, experimental and computational methodologies, for the processing, synthesis and characterization of the nanostructured materials; develop and enrich a training of teaching skills at the level of higher education and postgraduate; link the training of its graduates to the development needs of the productive sector; and to develop researchers of excellence and ethics, with a high level of originality, independence and scientific methodology.
The Nano Science and Technology (NSNT) Programme, defined on the basis of the three above elements, aims to educate students with the necessary interdisciplinary knowledge to contribute to the long-term nanoscale research and development, which will lead to potential breakthroughs in areas such as materials and manufacturing, nanoelectronics, medicine and healthcare, environment, energy, chemicals, and biotechnology.
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 Master's programmes focus on strengthening students' background in mechanical engineering, increasing their mathematical proficiency, and exposing them to the environment of engineering research and development.
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 is designed for those interested in pursuing a career in research and development in industry or academia and is an excellent preparation for a PhD degree.
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 focuses on strengthening students' knowledge in certain areas of Civil and Structural Engineering and exposing them to the issues involved in the conception, design, construction, maintenance, and use of structures and facilities.
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.
The Master PICS program provides a comprehensive program of courses covering theoretical, experimental and engineering aspects of photonics, micro/nano technologies, time-frequency metrology, information theory, and complex systems. It is delivered by the University of Bourgogne Franche-Comté (UBFC) in the city of Besançon. It is designed to cover a selection of topics at the interface of physics and engineering sciences, closely integrated with domains of research excellence developed in the Region of Bourgogne Franche-Comté (BFC). The master’s program also provides complementary courses in disciplinary and interdisciplinary knowledge, as well as broad digital, societal, cultural, environmental, and entrepreneurial skills. It is open to students with undergraduate physics degrees, and it aims to provide complementary courses to prepare students for careers in either industry or for future Ph.D. level studies. The PICS master is strongly supported by the FEMTO-ST Institute and the ICB Laboratory, research institutions with major international reputations in Physical Sciences and Engineering. The PICS Master’s program has received a national label as a Master’s of Excellence for Engineering and Research, entitled CMI (“Cursus master en Ingénierie”) which is delivered by the CMI-FIGURE network which consists of 28 universities in France.
The proposed master program aims at training students in fundamental, both theoretical and experimental, physics with applications in photonics, nanotechnology, and quantum technologies. This combination, innovative at the level of a master program, is well aligned with priority investments in research at the European and international level, with thematic areas of growing demand for highly trained students, able to embark in a doctoral program. This two-year master program, fully taught in English for international students, is part of the Graduate School of Sciences of the University Bourgogne Franche-Comté (UBFC). It consists of both lessons and research project (3 months during the first year) / internship (5 months during the second year). This training program will be based on the internationally highly recognized research activities of the underlying laboratories ICB, Dijon and FEMTO-ST, Besançon.