In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.
By focusing on research and development, materials science is able to provide new materials for use in industries. Materials science relies on several scientific and engineering departments to work together to problem-solve for the future.
Russia or, also officially known as the Russian Federation, is a country in northern Eurasia. Education in Russia is provided predominantly by the state and is regulated by the Ministry of Education and Science. In Russia, it takes about 70 % of training time for the contact lessons with a teacher, the rest 30 % of the workload are devoted to the independent study of the material.
Moscow city is considered to have the most political influence in Russia. It home to some of the world’s billionaires. Moscow has over 11 million people and a vibrant economy. The city has 60 state universities and a majority of the student major in sciences.
Request Information Master's Degrees in Materials Science in Moscow in Russia 2018
Two-year master's program devoted to the study of micro- and nano-scale phenomena, materials, and devices. [+]
The two-year Master’s degree program in Nanotechnology and Materials for Micro- and Nanosystems is devoted to the study of micro- and nano-scale phenomena, materials, and devices. It gives students a solid foundation in three core areas: nanomaterial fabrication and characterization; physical properties; and devices. The students will also understand the potential for the technology commercialization and its social impact. The program includes compulsory foundational courses along with elective courses focusing on specific materials and devices. The list of the main thematic areas included in the program is as follows:Nanoscale science and Fundamental concepts in nanotechnology; Modeling and simulation; Nanofabrication and Structural characterization; Magnetic nanosystems and nanoparticles; Materials and devices in spintronics; Semiconductor devise physics and technology; Technology of carbon nanomaterials; Embedded systems and software engineering; Micro and nanosensor technology. ... [-]
The principal goal of the Masters’ Program is to train highly-qualified personnel capable of working at universities, in advanced research laboratories and industrial sectors in the fields of Airspace, Chemical, Mechanical and Biological Engineering. [+]
The program provides a comprehensive overview of the state-of-the-art nanomaterials science and nanotechnology for fabricating nanomaterials, enabling students to engage with this rapidly growing scientific field. The program contains interdisciplinary topics covering science and engineering of advanced materials, such as fabrication and characterization of individual nanostructures (nanoparticles, nanospheres, nanotubes, nanosheets); functional nanomaterials, including hard and superhard materials, nanostructured thin films and bulk materials; surface engineering; atomistic simulations of solids and nanostructures.
A significant advantage of the program is an involvement of each student in the undergoing scientific research projects under the supervision of world-leading scientists. During the course of the projects, the students will be trained to use unique technological and analytical equipment available at the University. This will allow students to gain both fundamental knowledge and practical skills in the following disciplines: Synthesis of Nanostructures, with in-depth focus on a gas-phase synthesis of nanospheres, nanotubes and nanoflakes; Composite Materials; Nanostructured coatings; Hard and Superhard Nanomaterials, Spectroscopy and Electron Microscopy of Nanostructures, and Atomistic Simulations by Empirical and First-principles Methods.... [-]
The MS program “Advanced Metallic Materials and Engineering” offers high-quality postgraduate education in non-ferrous physical metallurgy and mechanical and aerospace engineering. [+]
Master in Advanced Metallic Materials and Engineering
An MS program “Advanced Metallic Materials and Engineering” offers high-quality postgraduate education in mechanical and aerospace engineering and non-ferrous physical metallurgy.
Total amount of Academic Credits: 120 credits.
Academic Credits for R&D work and dissertation: 45 credits.
Academic Credits for educational courses: 75 credits.
The medium of instruction for this program is English.
During their study, students will actively use technical equipment that will help them test their theoretical knowledge in an experimental setting. The educational process is based on the modular system, which allows students to choose the courses they deem necessary and beneficial for their future career from a total number of courses offered by the program.... [-]
Master's program in Engineering, Major: "Advanced Materials Science" focuses on the study of new construction materials used in space engineering, accurate mechanical engineering, medicine, information technologies, and other related fields. [+]
Master in Advanced Materials Science
Master's program "Advanced Materials Science" is focused on the study of new construction materials used in space engineering, accurate mechanical engineering, medicine, information technologies and other fields. The program also undertakes the study of the fundamental physical principles of measurements, modern analytical methods of materials properties study, as well as methods of their production. The program is designed for students who have received a BS degree in solid state physics, materials science, nanomaterials, or metallurgy.
The medium of instruction for this program is English.
Importance of the MS program
New materials were discovered and studied mainly by a rule of thumb. Yet, today due to the continuously growing industrial expectations from new materials possessing a wide spectrum of properties, there needs to be elaborated strong and reliable theoretical grounds, induced from practical experiments, to achieve greater success in this field.... [-]
Master's program "Quantum Physics for Advanced Materials Engineering" is devoted to the study of new physical phenomena in nanostructured materials and quantum devices created or discovered during the last 20-30 years of research for components for quantum electronics. [+]
The Master's program Quantum Physics for Advanced Materials Engineering is devoted to the study of new physical phenomena discovered in nanostructured materials and quantum devices created last 20-30 years in the search for components for quantum electronics. At the same time, the program addresses the basic physical principles of electronic systems and devices of quantum electronics, as well as some important manufacturing techniques and measurements of physical and chemical characteristics of quantum-sized structures and materials.
The program is designed for students trained in the number of university courses in general physics and introduction to theoretical physics for a Bachelors, which includes the courses: theoretical mechanics and the theory of elasticity, electrodynamics, quantum mechanics and statistical physics. The program does not involve a starting special training of students in the condensed matter physics, because it includes basic courses in:... [-]