Master degree program
Nanomaterials and Nanotechnologies in Chemistry ( PFUR)

Nanomaterials and Nanotechnologies in Chemistry ( PFUR)

QUALIFICATION

  • Scientific and pedagogical direction - Master of Engineering Sciences

MODEL OF GRADUATING STUDENT

1. to demonstrate deep knowledge of the current state and development trends of nanotechnology, as well as knowledge in interdisciplinary areas of professional activity;
2. to solve technological problems in new and unfamiliar contexts by the methods of research, analysis, diagnosis and modeling of the properties of substances and nanomaterials;
3. to substantiate the choice and applicability of existing synthesis methods for the production of nanomaterials taking into account physicochemical, kinetic and thermodynamic parameters;
4. to compare modern methods of synthesis used in nanotechnology, taking into account the economic and environmental aspects to achieve practical goals;
5. to apply modern technologies to control the properties of materials, aimed at changing their structure to solve the problems of creating new pilot plants, devices and devices in the nanotechnology industry;
6. to use modern information and communication technologies, global information resources in research and computational and analytical activities in the nanotechnology field;
7. to choose modern information and communication technologies, global information resources in the research and settlement and analytical activities in the nanotechnological field;
8. to integrate scientific and professional knowledge into the practice of the educational process of higher education in the field of nanotechnology;
9. to develop modern technological processes for the production of various nanomaterials, the processing of materials and products from them, process control systems;
10. to draw up project and working technical documentation in the field of nanotechnology in accordance with regulatory documents;
11. to plan and carry out comprehensive scientific research in the field of the synthesis of new carbon-containing materials with nanoscale structural components;
12. to be able to reflect, objectively assess their achievements in the field of nanotechnology, and realize the need to form new competencies.

Program passport

Speciality Name
Nanomaterials and Nanotechnologies in Chemistry ( PFUR)
Speciality Code
7M07121
Faculty
Chemistry and Chemical Technology

disciplines

Carbon Nanotubes, Graphenes, Fullerenes and Hydrophobic Soot
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to analyze the morphological diversity of carbon depending on its structure. Discipline is aimed at developing skills in the synthesis of carbon nanotubes, graphenes, fullerenes and hydrophobic soot. The following issues are considered: the structure, nomenclature, synthesis, modification, growth mechanism, morphological features and properties of carbon nanomaterials (carbon nanotubes, graphenes, fullerenes and hydrophobic soot) and their practical application.

Chemistry of Nanomaterials
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to understand and analyze the chemical features of nanostructures and nanomaterials. Discipline is aimed at the formation of undergraduate ideas on the creation of the main types of nano-objects and nanosystems. The following issues are being considered: functionalization of nanomaterials; adsorption and chemisorption of gases and vapors; classification of objects of nanochemistry, as well as the main types of nanoobjects and nanosystems based on them.

Foreign Language (professional)
  • Number of credits - 3
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose is to acquire and improve competencies by international standards of foreign language education and to communicate in an intercultural, professional, and scientific environment. A master's student must integrate new information, understand the organization of languages, interact in society, and defend his point of view.

History and methodology of science
  • Number of credits - 2
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the subject is to create a deep understanding of modern philosophy of science and the historical periods of nature knowledge in undergraduates, to create models of scientific rationality, its dimensions and interpretation of phenomena. The course examines the main stages of the history of science, the evolution of scientific knowledge methods, the modern interdisciplinary methodology of science, the principles of argument creation and analysis, and the culture of productivity.

History and philosophy of science
  • Number of credits - 3
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to develop in the undergraduates an in-depth understanding of the modern philosophy of science as a system of scientific knowledge of a particular type, which includes the main philosophical and methodological problems in their rational theoretical understanding. The discipline is aimed at shaping the future specialists ability to independent critical thinking and understanding of key worldview concepts. Will be studied: The subject of the history and philosophy of science, the emergence and formation of science. History and philosophy of social and human sciences, Philosophical problems of the development of modern global civilization.

Modeling of nanoobjects
  • Number of credits - 2
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is the formation of an in-depth understanding of the mathematical methods used in modern computer modeling of processes and phenomena in various fields of science for undergraduates. The course discusses general information about information technology, modeling, computational experiment, mathematical models and methods, and also studies the application of mathematical modeling methods to study the structure and physical properties of nanosized materials.

Organization and planning of scientific research (Nano)
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline to form the skills necessary for planning and conducting high-quality and competitive research. The course forms the theoretical and methodological basis of the research process. Discipline is aimed at learning the basics of the scientific method, the rules for the preparation and review of scientific publications and projects. Special attention will be paid to the planning of experiments, the presentation and commercialization of research results, the preparation and submission of research projects.

Pedagogy of Higher Education
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Purpose: To provide pedagogical theories and practical strategies for effective teaching in higher education, fostering critical thinking, and academic success. The course explores instructional methods, curriculum design, assessment techniques, and classroom management strategies preparing educators to create inclusive and stimulating learning environments.

Properties of Carbon Nanomaterials
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to identify the relationship between the properties and structure of nanomaterials. Discipline is aimed at developing the skills of undergraduates in the field of research structures, properties of carbon nanomaterials. The following questions are considered: properties of the graphite plane, hybridization of atomic orbitals, and the variety of allotropic modifications and chemical compounds of carbon. Prediction of the properties of carbon nanomaterials depending on the method of production. Materials and composites based on carbon nanomaterials.

Psychology of Management
  • Number of credits - 3
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline: providing scientific training of highly qualified specialists based on the study of fundamental concepts of management psychology, creating prerequisites for theoretical understanding and practical application of the most important aspects of the field of management in the process of professional development. The discipline is aimed at the formation of socio-psychological competence for objective assessment of psychological theories of management, leadership, dynamics of group development, team building, the features of psychology of the masses, crowd, psychological theories of communication, conflict resolution strategies necessary for their professional activities within framework of managerial relationships

Structure and Chemical Properties of Nanoparticles
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The goal of the discipline is to form the ability to predict properties and evaluate the structural and chemical features of nanoparticles. Discipline is aimed at developing skills to distinguish the features of nanoparticles depending on their structure. Questions are considered: methods for producing nanoparticles; features of the influence of synthesis conditions on the structure and morphology of nanoparticles; to classify the main types of carbon and non-carbon nanomaterials, their sizes and properties. Identify new possible applications of nanomaterials with a detailed study of their chemical properties.

The fundamental basis of nanotechnology
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to analyze the principles, physicochemical and quantum effects that underlie nanotechnology. The discipline is aimed at forming undergraduates' ideas on the basics of nanotechnology, the main classes and characteristics of nanomaterials. The course examines: historical stages in the development of nanotechnology, basic concepts and definitions, criteria for determining nanomaterials. Classification of nanomaterials. Nanotubes and nanowires. Self-organization and self-assembly processes.

Data for 2021-2024 years

disciplines

Carbon containing metal–organic frameworks in nanotechnology
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to plan and organize the process of obtaining carbon-containing metal-organic frameworks. The discipline is aimed at developing professional skills in obtaining metal-organic frameworks and practical aspects of their application. Considered: lassifications of metal-organic frameworks (MOF); universal strategis for the synthesis of metal-organic frameworks; methods for the synthesis of metal-organic frameworks (MOF); application of metal-organic frameworks.

Carbon Nanotubes, Fullerenes and Hydrophobic Soot
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to analyze the morphological diversity of carbon depending on its structure. Discipline is aimed at developing skills in the synthesis of carbon nanotubes, fullerenes and hydrophobic soot. The following issues are considered: the structure, nomenclature, synthesis, modification, growth mechanism, morphological features and properties of carbon nanomaterials (carbon nanotubes, fullerenes and hydrophobic soot) and their practical application.

Chemistry of Nanomaterials
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to understand and analyze the chemical features of nanostructures and nanomaterials. Discipline is aimed at the formation of undergraduate ideas on the creation of the main types of nano-objects and nanosystems. The following issues are being considered: functionalization of nanomaterials; adsorption and chemisorption of gases and vapors; classification of objects of nanochemistry, as well as the main types of nanoobjects and nanosystems based on them.

Computer modeling of processes of obtaining nanomaterials and nanostructures in plasma chemical reactors
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to simulate the production of nanomaterials and nanostructures in plasma-chemical reactors. Discipline is aimed at developing the skills of modeling the processes of obtaining nanomaterials in plasma-chemical reactors. The following questions are considered: the main structural components of plasma-chemical reactors; methods for monitoring the operation of plasma-chemical reactors: the possibility of compiling technological lines using plasma-chemical reactors for the synthesis of nanomaterials and nanostructures; main mechanisms of assembly of nano-objects in plasma-chemical reactors.

Computer modeling of synthesis of nanomaterials in plasma
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to evaluate the solution of problems in mathematical and computer simulation of the synthesis of nanomaterials in a nonequilibrium plasma. Discipline aims to develop skills through computer simulation. The following questions are considered: mathematical models, regarding the assembly of nanostructures; famous computer programs for modeling the assembly processes of various nanostructures; kinetic aspects of plasma-chemical synthesis; quantum chemical calculation methods.

Current State and Prospects of Development of Nanochemistry
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to assess the current state of nanochemistry and analyze the prospects and its development. Discipline is aimed at the formation of undergraduate ideas in the field of trends in the development of nanochemistry. The course covers: current trends in the development of nanochemistry; advanced methods of synthesis and analysis of nanomaterials; recent advances in carbon nanomaterials and their place in nanochemistry.

Experimental methods for studying nanomaterials and nanostructures
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to apply the methods of research of nanomaterials to assess their nanostructures. Discipline is aimed at the development of master skills in the choice of methods of analysis of chemical composition, morphology of nano-objects and materials. The course covers: classification and application of methods; fundamentals of technology and theory; nanomaterial diagnostics software; experimental research methodology.

Mechanochemical Synthesis of Composite Materials
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - TThe purpose of the discipline is to form the ability to understand the principles of mechanochemical synthesis of composite materials and its role in the development of nanotechnology. Discipline is aimed at developing the skills of obtaining composite materials using mechanochemistry. The following issues are considered: structures, nomenclature, synthesis, morphological features and properties of composite nanomaterials; methods for producing nanocomposites from nanopowders; modern processes of mechanochemical synthesis of nanocomposite materials.

Modern experimental methods for the study of nanomaterials and nanostructures
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to apply the methods of research of nanomaterials to assess their nanostructures. Discipline is aimed at the development of master skills in the choice of methods of analysis of chemical composition, morphology of nano-objects and materials. The course covers: classification and application of methods; fundamentals of technology and theory; nanomaterial diagnostics software; experimental research methodology.

Modern methods for obtaining nanomaterials and nanostructures
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to synthesize nanomaterials and nanostructures with desired characteristics. Discipline is aimed at developing undergraduates ideas and skills for obtaining nanomaterials and nanostructures. The course covers: general characteristics of nanotechnology facilities; physical and chemical bases of nanomaterials production; technological processes for the creation of nanomaterials, thermodynamic laws of the synthesis of nanostructures.

Physical and chemical bases of obtaining carbon nanotubes in a flame
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to argue the physicochemical processes leading to the formation of nanocarbon materials in flames. Discipline is aimed at developing mastery skills in the synthesis of carbon nanotubes in the flames of hydrocarbons. The course covers: the properties of the nanotubes of the resulting flames; physical and chemical methods of separation and purification of carbon nanotubes; growth mechanisms of carbon nanotubes.

Physico-chemical fundamentals of obtain nanomaterials and nanostructures
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to synthesize nanomaterials and nanostructures with desired characteristics. Discipline is aimed at developing undergraduates ideas and skills for obtaining nanomaterials and nanostructures. The course covers: general characteristics of nanotechnology facilities; physical and chemical bases of nanomaterials production; technological processes for the creation of nanomaterials, thermodynamic laws of homogeneous formation and growth of nanoclusters.

Properties of Carbon Nanomaterials
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to identify the relationship between the properties and structure of nanomaterials. Discipline is aimed at developing the skills of undergraduates in the field of research structures, properties of carbon nanomaterials. The following questions are considered: properties of the graphite plane, hybridization of atomic orbitals and the variety of allotropic modifications and chemical compounds of carbon. Prediction of the properties of carbon nanomaterials depending on the method of production.

Structure and Chemical Properties of Nanoparticles
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The goal of the discipline is to form the ability to predict properties and evaluate the structural and chemical features of nanoparticles. Discipline is aimed at developing skills to distinguish the features of nanoparticles depending on their structure. Questions are considered: methods for producing nanoparticles; features of the influence of synthesis conditions on the structure and morphology of nanoparticles; The main types of carbon and non-carbon nanomaterials, their size and properties.

Synthesis of composite materials by 3D printing method
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form master students knowledge of the possibilities of 3D printing, software for 3D modeling and creation of materials for wide use in various industries. The discipline is aimed at the development of master's students' skills in the synthesis of composite materials by the method of 3D printing. Considered: the main stages that determine the process of 3D printing; methods of synthesis of various forms of composite materials based on nanostructures; optimization of technological parameters and characteristics of composite materials.

Synthesis of Composite Materials by an Electrospinning Method
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to organize, evaluate the synthesis of composite materials by an electrospinning method. Discipline is aimed at developing skills for undergraduates of the synthesis of composite materials by an electrospinning method. The following are considered: the main stages that determine the process of electrospinning; methods of synthesis of fibrous forms of nanomaterials; optimization of technological parameters and characteristics of fibers from the main technological parameters during electroforming from polymer solution with different shelf life; production methods for continuous nano-sized fibers.

Synthesis of Fullerens in the Flame
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to develop a synthesis method leading to the formation of a solid phase in hydrocarbon flames. The discipline is aimed at developing undergraduates' skills and abilities to choose optimal conditions for the synthesis of fullerenes. The course covers: methods for the synthesis of fullerenes; methods of controlling the processes of formation of fullerene structures by the influence of an external local effect on the processes of synthesis in a flame.

The carbon nanostructured materials on the basis of vegetable raw materials
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to analyze the problems of the development of nanotechnology related to obtaining new materials based on plant materials. Discipline is aimed at developing undergraduates skills in the field of nanostructured materials based on plant materials. The following are considered: synthesis, morphological features and properties of carbon nanomaterials based on vegetable raw materials; types of nanoporous materials; methods for preparing membranes, sorbents and catalysts.

The manufacturing technology of devices of nano- and microsystem technology (PFUR)
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to understand and evaluate the experimental and theoretical foundations of technological processes of planar technology. During the study of course, master students should be competent in: 1. to demonstrate knowledge on the current level of development of semiconductor technology, methods for controlling the parameters of the products obtained; 2. to classify the main technological operations, the modes of their implementation; requirements for the materials used information that contains descriptions of technological processes; 3. to evaluate the methods for developing a flowchart for manufacturing an electronic circuit with predetermined structural elements; 4. to describe the main technological operations, assessing the main parameters of the technological process; 5. to apply the acquired knowledge about technological processes to solve a specific research problem. The discipline is aimed at the formation of ideas among graduate students about the principles of operation of technological equipment and modes of performing technological operations. The course covers: Ion-plasma etching. Features of selective plasma etching. Photolithography. Characteristics of photoresists. Electron lithography. X-ray and ion lithography. Features of lithography nanometer sizes. The sequence of basic technological operations. Assembly of integrated circuits. Methods of joining crystals. Method of thermocompression, ultrasonic welding.

Data for 2021-2024 years

INTERNSHIPS

Pedagogical
  • Type of control - Защита практики
  • Description - Aim оf discipline: formation of the ability to carry out educational activities in universities, to design the educational process and conduct certain types of training sessions using innovative educational technologies.

Research
  • Type of control - Защита практики
  • Description - The purpose of the practice: gaining experience in the study of an actual scientific problem, expand the professional knowledge gained in the learning process, and developing practical skills for conducting independent scientific work. The practice is aimed at developing the skills of research, analysis and application of economic knowledge.

Research practice
  • Type of control - Защита практики
  • Description - The research practice of the undergraduate is carried out in order to consolidate the theoretical knowledge gained in the process of learning, the acquisition of practical skills, competencies and professional experience in the specialty under study, as well as the development of advanced experience. The content of research practice is determined by the topic of the dissertation research.

Data for 2021-2024 years