Chemistry and Technology of Nanomaterials

Major: Chemical Technologies of Fuel and Carbon Materials
Code of subject: 7.161.05.O.007
Credits: 5.50
Department: Chemistry and Technology of Inorganic Substances
Lecturer: Doctor of Science, prof. Kuntyi Orest Ivanovych
Semester: 1 семестр
Mode of study: денна
Мета вивчення дисципліни: The purpose of studying the discipline "Chemistry and technology of nanomaterials" is to acquaint students with 1) the most widely used methods of obtaining nanomaterials, primarily the following: chemical, physicochemical, and electrochemical; 2) the structure of nanoparticles and the topography of nanostructured materials, the structure, properties, and practical application of various types of nanomaterials (nanostructured carbon materials, metals, semiconductors, oxides, composite materials), which are necessary for catalysis, medical chemistry, device engineering, electronics, and energy. The study of "Chemistry and technology of nanomaterials" should contribute to the formation of a holistic scientific worldview in the field of natural sciences in students, and at the same time, the acquisition of knowledge is necessary for the further performance of scientific research.
Завдання: The study of an academic discipline involves the formation and development of students' competencies: - the ability to learn, to perceive the acquired knowledge in the subject area and to integrate it with the existing ones; - the ability to be critical and self-critical in order to understand factors that have a positive or negative impact on communication, and the ability to identify and take into account these factors in specific communication situations; - ability to plan and manage working time; - the ability to produce new ideas, to show creativity, the ability to system thinking; - the ability to search and analyze information from various sources of scientific, technical and patent literature; - focus on production safety; - acquisition of a flexible way of thinking, which makes it possible to understand and solve problems and tasks, while maintaining a critical attitude to established scientific concepts; - the ability to solve tasks and make appropriate informed decisions
Learning outcomes: • Know the types of the nanosystems, nanomaterials and methods of their obtaining, methods of physical researches of geometry of nanoparticles and morphology of nanomaterials, nanosizes effects in chemical and physicochemical processes, interdisciplinary connections in nanochemistry and nanoengineering, directions of application of the nanosystems and nanomaterials in chemical technologies, medicine, and materials science. • Able to conduct the research of concrete information in scientific literature (periodic, patent, monographic) from nanochemistry and nanotechnologies and network the Internet and independently to analyses her and to register in the form of reports, abstracts and presentations. • Have conception about directions of development of nanoscience and nanoengineering, tendency of researches and application in chemistry of nanomaterials.
Required prior and related subjects: • Inorganic chemistry. • Organic chemistry. • Physical chemistry.
Summary of the subject: The study of the modern state of science “Nanoscience” and her part “Nanochemistry” and nanotechnologies, that includes the sound understanding of methods of obtaining of the nanosystems, nanomaterials, nanocomposites, methods of physical researches of their morphology. Scientific analyses of the nanosizes effects in chemical and physicochemical processes. Branches of application of the nanosystems, nanomaterials, nanocomposites.
Опис: Study of the current state of the science of "Nanoscience" and its part "Nanochemistry" and nanotechnologies, which includes a thorough understanding of methods of obtaining nanosystems, nanomaterials, nanocomposites, methods of physical research of their morphology. Scientific analysis of the nanoscale effect in chemical and physicochemical processes. Fields of application of nanosystems, nanomaterials, nanocomposites.
Assessment methods and criteria: • Writing of abstracts from chemistry and engineering of nanomaterials by the topic specialization (70%) • The oral presentation (slides) of material of abstracts (30%)
Критерії оцінювання результатів навчання: The current control of students' knowledge includes the defense of an essay on an individual topic. Semester control is carried out in the form of credit.
Recommended books: 1. Нанохімія. Наносистеми. Наноматеріали / С. Волков, Є. Ковальчук, В. Огенко, О. Решетняк: монографія. – Київ: Наукова думка, 2008. – 423 с. 2. Заячук Д. М. Нанотехнології і наноструктур: навч. посібн. – Львів: Львівська політехніка, 2009. – 581 с. 3. Кунтий О.І. Електрохімія та морфологія дисперсних металів: монографія. – Львів: Львівська політехніка, 2008. – 208 с. 4. Journals: Journal of Nanoscience, Nano Today, Nanoscale, Journal of Experimental Nanoscience, International Journal of Electrochemistry, Chemisrty & Chemical Technology

Chemistry and Technology of Nanomaterials

Major: Chemical Technologies of Fuel and Carbon Materials
Code of subject: 7.161.05.O.008
Credits: 5.50
Department: Chemical Technology of Plastics Processing
Lecturer: Professor Levytskyi Volodymyr
Semester: 1 семестр
Mode of study: денна
Мета вивчення дисципліни: -
Завдання: -
Learning outcomes: • Consciously influence on the chemical and physical-chemical processes of producing nanomaterials and polymer nanocomposites; • Make the reasonable choice of the methods of obtaining; • Select the modes and conditions of the process; • Establish the relationship between structure and properties of polymer composites based on nanofillers; • Consciously define their field of application.
Required prior and related subjects: • Polimeric Materias Science, • Phisicochemical of Polymers, • Modern Technological Processes of Processing of Polimeric and Composite Materials.
Summary of the subject: The specific properties of nanomaterials that determine their practical value. The impact of the size effects and structure of nanomaterials for their mechanical and physical-chemical properties. Classification of nanomaterials and and polymer composites there based on. Methods for producing nanomaterials and composites. Fundamentals of the synthesis, analysis and operation of nanomaterials. Effective uses of nano materials and polymer composites based on them.
Опис: -
Assessment methods and criteria: • written reports on control work, oral examination (30%) • final control (70% control measure, exam), written-oral form (70%)
Критерії оцінювання результатів навчання: -
Recommended books: 1. С.В. Волков, Є.П. Ковальчук, В.М. Огенко, О.В. Решетняк Нанохімія Наносистеми Наноматеріали - К.: Наукова думка, 2008. – 423 с. 2. Пул Ч. Нанотехнологии/ Ч. Пул, Ф. Оуэнс. – М: Техносфера, 2005. – 336 с. 3. Наноматериалы. Нанотехнологии. Наносистемная техника/ Под ред. П.П. Мальцева. – М: Техносфера, 2006. – 152 с. 4. Помогайло А.Д. Наночастицы металлов в полимерах/ А.Д. Помогайло, А.С. Розенберг, И.Е. Уфлянд. – М.: Химия, 2000. – 168 с.

Chemistry and Technology of Nanomaterials

Major: Chemical Technologies of Fuel and Carbon Materials
Code of subject: 7.161.05.O.009
Credits: 5.50
Department: Chemical Technology of Silicate Materials
Lecturer: рrofessor Yaroslav Ivanovych Vakhula
Semester: 1 семестр
Mode of study: денна
Мета вивчення дисципліни: Іntroducing students to the current state of nanotechnology, the properties of nanomaterials and their application in various fields
Завдання: General competences: - the ability to search, process and analyze information from various sources; - appreciation and respect for diversity and multiculturalism. Professional competences: - the ability to use modern special scientific equipment and software when conducting experimental research and carrying out research and development in the field of chemical technologies and engineering; - modern ideas about the mechanisms and principles of chemical transformations of substances and energy at different levels of chemical and technological processes; - modern ideas about the basics and prospects of nanotechnology.
Learning outcomes: 1. Specialized conceptual knowledge, which includes modern scientific achievements in the field of professional activity or field of knowledge and is the basis for original thinking and conducting research. 2. Critical understanding of problems in the field and on the border of the fields of knowledge. 3. Specialized skills/problem-solving skills necessary for conducting research and/or carrying out innovative activities to develop new knowledge and procedures. 4. Ability to integrate knowledge and solve complex problems in broad or multidisciplinary contexts.
Required prior and related subjects: Methodology of scientific research. Chemical technology of fine, technical ceramics and refractories. Technology of glass products. Chemical technology of air, autoclave and hydraulic binders.
Summary of the subject: The discipline provides knowledge about the main technological methods of obtaining nanosystems, nanomaterials and nanocomposites, their application, methods of physical research of their morphology, studies the basics of technology for the production of nano-sized ceramic powders and multi-functional glass coatings.
Опис: New highly effective and functional materials. Nanomaterials and nanotechnologies. Basics of sol-gel technology. Polyfunctional oxide ceramic powders. Composite dental materials based on nano-sized fillers. Thin-layer glass coatings obtained by sol-gel technology.
Assessment methods and criteria: Current and settlement control. Knowledge assessment methods: essay writing, oral and written survey, test control.
Критерії оцінювання результатів навчання: Total for the discipline - 100 points: - abstract, oral survey - 30 points; - final control (credit): written and oral form - 70 points.
Recommended books: Metal Nanopowders: Production, Characterization, and Energetic Applications. Alexander A. Gromov, Ulrich Teipel. John Wiley & Sons, 2014 – 440 p. Remediation of water and wastewater by using engineered nanomaterials: A review / Obadia K. Bishoge, Lingling Zhang, Shaldon L. Suntuc etc. // Journal of environmental science and health, part A. 2018, V. 53, N 6, P. 537-554. Volkov SV, Kovalchuk EP, Ogenko VM, Reshetnyak OV Nanochemistry. Nanosystems. Nanomaterials. - К .: Naukova dumka, 2008. - 424 p. L.O. Zgalat-Lozynska, Fr. B. Zgalat-Lozynsky. Intensification of the use of nanomaterials and nanotechnologies as a direction of innovative activity in construction. Construction production №68, 2019, p.30-38. Metal Nanopowders: Production, Characterization, and Energetic Applications. Alexander A. Gromov, Ulrich Teipel. John Wiley & Sons, 2014 – 440 p.