(in Polish) Wprowadzenie do chemii nowoczesnych materiałów 0600-S1-O-WCNM

1. Structure of matter: chemical bonds and intermolecular interactions. Real gases, liquefaction (phase transitions). Liquid properties resulting from intermolecular interactions: surface tension, viscosity, solubility.
2. Solids - phase changes, types of phases, properties. Crystals - definitions, spatial and crystal lattice. Miller indexes, elementary cells and crystal classification systems. Elements of symmetry and parameters characterizing the lattice of crystals.
3. Mechanical properties of solids: hardness, elasticity, elongation. Hardness scales. Allotropy and anisometry. Disturbances and defects of the crystal lattice.
4. Metals - types of crystal structures, conduction band theory.
5. Band model of solids - division into conductors, semiconductors and insulators. Chemical "systematics" of semiconductors. Intrinsic and doped semiconductors. Semiconductor applications. Superconductors, liquid crystals, glasses, bioglasses
6. Magnetic properties of solids: diamagnets, paramagnets and ferromagnets.
7. Physicochemical and technological properties of metals. Metallurgy of ferrous and other metals (ferrous and non-ferrous). Steels and alloys - properties and applications.
8. Metals and nanometals.
9. Colloids and nanomaterials
10. Chemistry of biomaterials
11. Natural and artificial polymeric materials. Thermoplastics and elastomers. Thermoset polymers.
12. Surface phenomena: adhesion, adsorption, heterogeneous catalysis, electrode processes.
13. Corrosion of materials (electrochemical, atmospheric). Corrosion protection
14. Green chemistry”: principles and methods of their implementation; pro-ecological technological activities.
15. Conventional and renewable energy. Primary and final energy. Raw materials: solid, liquid and gaseous fuels. Combustion and flue gas purification processes. Prospects and directions of energy development (nuclear energy, biofuels, fuel cells). Hydrogen as an energy source. Materials for the production of hydrogen

Total student workload

1. Hours conducted with the participation of instructors: contact hours provided for in the study plan for a given course 15 contact consultation hours 2. 2. The time devoted to self-study of a student 13 earlier preparation and completion of notes; collection and selection of relevant materials for classes, required revision of the material, writing assignments, developing projects, reading reference materials reading course materials 25. 3. The time required to prepare for assessment and grading (e.g. examinations) 20

Learning outcomes - knowledge

W1: Knows at an advanced level the laws and chemical nomenclature related to the structure of solids and materials - K_W01, W2: Knows the structure of crystalline and amorphous materials - K_W01, W3: Knows the structure, properties and application of metals and their alloys - K_W01, W4: Knows various materials that are energy resources and can determine their impact on the environment - K_W01. W5: Knows advanced aspects of the structure and methods of assessing the properties of materials and chemical substances. Has the knowledge to use materials for a specific practical purpose and to indicate the method of their management after the period of use - K_W13

Learning outcomes - skills

U1:Applies chemical laws to describe the structure and properties and characterization of materials - K_U02, U2: Can relate the structure of the material with its properties and application possibilities - K_U02. U3: Can find relationships between the behavior of materials during formation and use and physicochemical properties, structure and type of structure - K_U13

Learning outcomes - social competencies

K1: Works independently and effectively with a large amount of information on materials used in everyday life and technological processes - K_K01, K2: Creative thoughts to improve existing or create new materials - K_K02, K3: Is focused on the constant acquisition of new knowledge, skills and experience allowing for the design of new utility materials - K_K05, K4: Can independently search in the professional literature for information helpful in finding materials with the desired properties - K_K07.

Teaching methods

Didactic method giving: - informative lecture (conventional) - problem lecture - lecture with demonstration

Type of course

compulsory course

Prerequisites

Course coordinators

Marek Wiśniewski

Assessment criteria

Assessment methods:
- written exam - assessing knowledge in the scope of W1-W5

The final oral and/or written exam on the content of the lectures, including checking the ability to correctly describe materials and chemical substances commonly used in life and economy.

Practical placement

Bibliography

Basic literature:
1. Bala H., Wstęp do chemii materiałów, WNT, Warszawa 2003
2. Rosik-Dulewska C, Podstawy gospodarki odpadami, PWN, Warszawa 2010
3. Przybyłowicz K., Przybyłowicz K., Materiałoznawstwo w pytaniach i odpowiedziach, WNT, Warszawa 2004
4.Starowieyski K., O materiałach - ich właściwościach i wykorzystaniu oraz o przyjaznym współżyciu człowieka z otoczeniem, Medbook, Polska 2010, wyd.1
additional literature:
1. Baszkiewicz J., Kamieński M., Korozja materiałów, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa 2006
2. L. Czarnecki, T. Broniewski, O. Henning, Chemia w budownictwie, Arkady, Warszawa, 1995
3, Głowacka M. (red.), Metaloznawstwo, Wydawnictwo PG, Gdańsk 1996
4 Gruin I., Materiały polimerowe, PWN, Warszawa 2003

Term 2023/24L:

Wykaz literatury podstawowej:
1. Bala H., Wstęp do chemii materiałów, WNT, Warszawa 2003
2. Rosik-Dulewska C, Podstawy gospodarki odpadami, PWN, Warszawa 2010
3. Przybyłowicz K., Przybyłowicz K., Materiałoznawstwo w pytaniach i odpowiedziach, WNT, Warszawa 2004
4.Starowieyski K., O materiałach - ich właściwościach i wykorzystaniu oraz o przyjaznym współżyciu człowieka z otoczeniem, Medbook, Polska 2010, wyd.1
Wykaz literatury uzupełniającej:
1. Baszkiewicz J., Kamieński M., Korozja materiałów, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa 2006
2. L. Czarnecki, T. Broniewski, O. Henning, Chemia w budownictwie, Arkady, Warszawa, 1995
3, Głowacka M. (red.), Metaloznawstwo, Wydawnictwo PG, Gdańsk 1996
4 Gruin I., Materiały polimerowe, PWN, Warszawa 2003

Term 2024/25L:

Notes

Term 2023/24L:

Term 2024/25L:

Additional information

Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system:

Description of 0600-S1-O-WCNM in USOSweb