Zachodniopomorski Uniwersytet Technologiczny w Szczecinie

Administracja Centralna Uczelni - Wymiana międzynarodowa (S1)

Sylabus przedmiotu Nanomaterials:

Informacje podstawowe

Kierunek studiów Wymiana międzynarodowa
Forma studiów studia stacjonarne Poziom pierwszego stopnia
Tytuł zawodowy absolwenta
Obszary studiów
Profil
Moduł
Przedmiot Nanomaterials
Specjalność przedmiot wspólny
Jednostka prowadząca Katedra Technologii Materiałowych
Nauczyciel odpowiedzialny Magdalena Kwiatkowska <Magdalena.Kwiatkowska@zut.edu.pl>
Inni nauczyciele Paweł Figiel <Pawel.Figiel@zut.edu.pl>, Sebastian Fryska <Sebastian.Fryska@zut.edu.pl>, Paweł Kochmański <Pawel.Kochmanski@zut.edu.pl>, Magdalena Kwiatkowska <Magdalena.Kwiatkowska@zut.edu.pl>
ECTS (planowane) 3,0 ECTS (formy) 3,0
Forma zaliczenia zaliczenie Język angielski
Blok obieralny Grupa obieralna

Formy dydaktyczne

Forma dydaktycznaKODSemestrGodzinyECTSWagaZaliczenie
wykładyW1 30 3,01,00zaliczenie

Wymagania wstępne

KODWymaganie wstępne
W-1Basic knowledge of the chemical composition, structure, materials and physicochemical changes. Basic knowledge of the materials testing.

Cele przedmiotu

KODCel modułu/przedmiotu
C-1Making students knowledge about the nanomaterials, nanocomposites and advanced technologies of their manufacturing and investigation.

Treści programowe z podziałem na formy zajęć

KODTreść programowaGodziny
wykłady
T-W-1Nanoparticles, nanomaterials, nanocomposites - definitions and fundamental classification. Materials Science at the nanoscale. Synthesis and properties of nanostructural coatings. Manufacturing processes. Sintering of nanoceramics. Nanoceramics. Nanocomposites. Mechanical and nanomechanical properties.7
T-W-2Polymer nanocomposites: definitions, structures, key factors, application potential. Nanofillers to polymers: classification, structures, physical properties. The effects of nanofillers on polymer systems.15
T-W-3Characterization tools. Direct Methods: optical, electron, and scanning probe microscopy. Indirect methods: diffraction techniques for periodic structures.8
30

Obciążenie pracą studenta - formy aktywności

KODForma aktywnościGodziny
wykłady
A-W-1Participation in lectures .30
A-W-2Preparation of a written work in the form of a paper.20
A-W-3Literature studying25
75

Metody nauczania / narzędzia dydaktyczne

KODMetoda nauczania / narzędzie dydaktyczne
M-1Informative lecture with audiovisual aids, ie. educational movies, computer presentations .

Sposoby oceny

KODSposób oceny
S-1Ocena podsumowująca: After participation in lecture the student proceeds to pass a written exam and receive a passing grade.

Zamierzone efekty uczenia się - wiedza

Zamierzone efekty uczenia sięOdniesienie do efektów kształcenia dla kierunku studiówOdniesienie do efektów zdefiniowanych dla obszaru kształceniaCel przedmiotuTreści programoweMetody nauczaniaSposób oceny
WM-WIMiM_1-_WM40_W01
Student has widened knowledge about nanomaterials science and methods of manufacturing or synthesis selected nanomaterials. Student has widened knowledge about methods and tools used for nanomaterials characterization.
C-1T-W-2, T-W-1, T-W-3M-1S-1

Zamierzone efekty uczenia się - umiejętności

Zamierzone efekty uczenia sięOdniesienie do efektów kształcenia dla kierunku studiówOdniesienie do efektów zdefiniowanych dla obszaru kształceniaCel przedmiotuTreści programoweMetody nauczaniaSposób oceny
WM-WIMiM_1-_WM40_U01
Students can use sources of literature, seek and follow the development of new technologies, advanced materials and methods their indentification.
C-1T-W-2, T-W-1, T-W-3M-1S-1

Zamierzone efekty uczenia się - inne kompetencje społeczne i personalne

Zamierzone efekty uczenia sięOdniesienie do efektów kształcenia dla kierunku studiówOdniesienie do efektów zdefiniowanych dla obszaru kształceniaCel przedmiotuTreści programoweMetody nauczaniaSposób oceny
WM-WIMiM_1-_WM40_K01
Student has awareness that nanotechnology makes it possible to achieve very large effects with a minimal amount of material and that applicability to some products is limited from enviromental point of view.
C-1T-W-2, T-W-1, T-W-3M-1S-1

Kryterium oceny - wiedza

Efekt uczenia sięOcenaKryterium oceny
WM-WIMiM_1-_WM40_W01
Student has widened knowledge about nanomaterials science and methods of manufacturing or synthesis selected nanomaterials. Student has widened knowledge about methods and tools used for nanomaterials characterization.
2,0
3,0Student has widened knowledge about nanomaterials science and methods of manufacturing or synthesis selected nanomaterials. Student has widened knowledge about methods and tools used for nanomaterials characterization.
3,5
4,0
4,5
5,0

Kryterium oceny - umiejętności

Efekt uczenia sięOcenaKryterium oceny
WM-WIMiM_1-_WM40_U01
Students can use sources of literature, seek and follow the development of new technologies, advanced materials and methods their indentification.
2,0
3,0Students can use sources of literature, seek and follow the development of new technologies, advanced materials and methods their indentification.
3,5
4,0
4,5
5,0

Kryterium oceny - inne kompetencje społeczne i personalne

Efekt uczenia sięOcenaKryterium oceny
WM-WIMiM_1-_WM40_K01
Student has awareness that nanotechnology makes it possible to achieve very large effects with a minimal amount of material and that applicability to some products is limited from enviromental point of view.
2,0
3,0Student has awareness that nanotechnology makes it possible to achieve very large effects with a minimal amount of material and that applicability to some products is limited from enviromental point of view.
3,5
4,0
4,5
5,0

Literatura podstawowa

  1. Brechignac C., Houdy P., Lahmani M., Nanomaterials and Nanochemistry, Springer, Berlin, Heidelberg, New York, 2007
  2. Y.Gogotsi, Nanomaterials Handbook, CRC Taylor &Francis, 2006
  3. Klein L.C., Processing of nanostructured sol-gel materials [in] Edelstein A.S., Cammarata R.C. (ed.), Nanomaterials: synthesis, properties and applications, Institute of Physics Publishing, Bristol, Filadelfia, 1996
  4. Gupta R.K., Kennel E., Polymer nanocomposites handbook, CRC Press, 2008
  5. Mai Y.W., Yu Z-Z., Polymer nanocomposites, CRC Press, 2006
  6. Wang Z., L., Characterization of nanophase materials, Wiley-VCH, Weinheim, 2000
  7. Kny E., Nanocomposite materials, Trans Tech. Pub.Ltd, Zurich, Enfield, 2009

Treści programowe - wykłady

KODTreść programowaGodziny
T-W-1Nanoparticles, nanomaterials, nanocomposites - definitions and fundamental classification. Materials Science at the nanoscale. Synthesis and properties of nanostructural coatings. Manufacturing processes. Sintering of nanoceramics. Nanoceramics. Nanocomposites. Mechanical and nanomechanical properties.7
T-W-2Polymer nanocomposites: definitions, structures, key factors, application potential. Nanofillers to polymers: classification, structures, physical properties. The effects of nanofillers on polymer systems.15
T-W-3Characterization tools. Direct Methods: optical, electron, and scanning probe microscopy. Indirect methods: diffraction techniques for periodic structures.8
30

Formy aktywności - wykłady

KODForma aktywnościGodziny
A-W-1Participation in lectures .30
A-W-2Preparation of a written work in the form of a paper.20
A-W-3Literature studying25
75
(*) 1 punkt ECTS, odpowiada około 30 godzinom aktywności studenta
PoleKODZnaczenie kodu
Zamierzone efekty uczenia sięWM-WIMiM_1-_WM40_W01Student has widened knowledge about nanomaterials science and methods of manufacturing or synthesis selected nanomaterials. Student has widened knowledge about methods and tools used for nanomaterials characterization.
Cel przedmiotuC-1Making students knowledge about the nanomaterials, nanocomposites and advanced technologies of their manufacturing and investigation.
Treści programoweT-W-2Polymer nanocomposites: definitions, structures, key factors, application potential. Nanofillers to polymers: classification, structures, physical properties. The effects of nanofillers on polymer systems.
T-W-1Nanoparticles, nanomaterials, nanocomposites - definitions and fundamental classification. Materials Science at the nanoscale. Synthesis and properties of nanostructural coatings. Manufacturing processes. Sintering of nanoceramics. Nanoceramics. Nanocomposites. Mechanical and nanomechanical properties.
T-W-3Characterization tools. Direct Methods: optical, electron, and scanning probe microscopy. Indirect methods: diffraction techniques for periodic structures.
Metody nauczaniaM-1Informative lecture with audiovisual aids, ie. educational movies, computer presentations .
Sposób ocenyS-1Ocena podsumowująca: After participation in lecture the student proceeds to pass a written exam and receive a passing grade.
Kryteria ocenyOcenaKryterium oceny
2,0
3,0Student has widened knowledge about nanomaterials science and methods of manufacturing or synthesis selected nanomaterials. Student has widened knowledge about methods and tools used for nanomaterials characterization.
3,5
4,0
4,5
5,0
PoleKODZnaczenie kodu
Zamierzone efekty uczenia sięWM-WIMiM_1-_WM40_U01Students can use sources of literature, seek and follow the development of new technologies, advanced materials and methods their indentification.
Cel przedmiotuC-1Making students knowledge about the nanomaterials, nanocomposites and advanced technologies of their manufacturing and investigation.
Treści programoweT-W-2Polymer nanocomposites: definitions, structures, key factors, application potential. Nanofillers to polymers: classification, structures, physical properties. The effects of nanofillers on polymer systems.
T-W-1Nanoparticles, nanomaterials, nanocomposites - definitions and fundamental classification. Materials Science at the nanoscale. Synthesis and properties of nanostructural coatings. Manufacturing processes. Sintering of nanoceramics. Nanoceramics. Nanocomposites. Mechanical and nanomechanical properties.
T-W-3Characterization tools. Direct Methods: optical, electron, and scanning probe microscopy. Indirect methods: diffraction techniques for periodic structures.
Metody nauczaniaM-1Informative lecture with audiovisual aids, ie. educational movies, computer presentations .
Sposób ocenyS-1Ocena podsumowująca: After participation in lecture the student proceeds to pass a written exam and receive a passing grade.
Kryteria ocenyOcenaKryterium oceny
2,0
3,0Students can use sources of literature, seek and follow the development of new technologies, advanced materials and methods their indentification.
3,5
4,0
4,5
5,0
PoleKODZnaczenie kodu
Zamierzone efekty uczenia sięWM-WIMiM_1-_WM40_K01Student has awareness that nanotechnology makes it possible to achieve very large effects with a minimal amount of material and that applicability to some products is limited from enviromental point of view.
Cel przedmiotuC-1Making students knowledge about the nanomaterials, nanocomposites and advanced technologies of their manufacturing and investigation.
Treści programoweT-W-2Polymer nanocomposites: definitions, structures, key factors, application potential. Nanofillers to polymers: classification, structures, physical properties. The effects of nanofillers on polymer systems.
T-W-1Nanoparticles, nanomaterials, nanocomposites - definitions and fundamental classification. Materials Science at the nanoscale. Synthesis and properties of nanostructural coatings. Manufacturing processes. Sintering of nanoceramics. Nanoceramics. Nanocomposites. Mechanical and nanomechanical properties.
T-W-3Characterization tools. Direct Methods: optical, electron, and scanning probe microscopy. Indirect methods: diffraction techniques for periodic structures.
Metody nauczaniaM-1Informative lecture with audiovisual aids, ie. educational movies, computer presentations .
Sposób ocenyS-1Ocena podsumowująca: After participation in lecture the student proceeds to pass a written exam and receive a passing grade.
Kryteria ocenyOcenaKryterium oceny
2,0
3,0Student has awareness that nanotechnology makes it possible to achieve very large effects with a minimal amount of material and that applicability to some products is limited from enviromental point of view.
3,5
4,0
4,5
5,0