UNIVERSITY OF LODZ - Central Authentication System

Nanotechnology IIA

General data

Course ID:	1600-DLCT6NTA
Erasmus code / ISCED:	(unknown) / (0531) Chemistry The ISCED (International Standard Classification of Education) code has been designed by UNESCO.
Course title:	Nanotechnology IIA
Name in Polish:	Nanotechnology IIA
Organizational unit:	Faculty of Chemistry
Course groups:
ECTS credit allocation (and other scores):	0 OR 4.00 (depends on study program) Basic information on ECTS credits allocation principles: the annual hourly workload of the student’s work required to achieve the expected learning outcomes for a given stage is 1500-1800h, corresponding to 60 ECTS; the student’s weekly hourly workload is 45 h; 1 ECTS point corresponds to 25-30 hours of student work needed to achieve the assumed learning outcomes; weekly student workload necessary to achieve the assumed learning outcomes allows to obtain 1.5 ECTS; work required to pass the course, which has been assigned 3 ECTS, constitutes 10% of the semester student load. view allocation of credits
Language:	English
Prerequisits:	Basic knowledge of chemistry, physics and biology at the high school level. Ability to use mathematical apparatus required of the student's second year of college science courses.
Short description:	Familiarize students with the basics of nanotechnology as an interdisciplinary study combining chemical, physical and biological aspects. Presentation of methods of manufacture, characterization and application of nanomaterials.
Learning outcomes:	As a result of course, the student should be able to characterize the main differences between nano-objects and macro-objects, include representatives of various groups of nanomaterials, to offer the best technique to characterize nano-objects, to plan chemical synthesis of nanoparticles, to seek creative achievements of nanotechnology application areas. Connection with directional learning outcomes: 16CT1A_W04 16CT1A_W06 16CT1A_W11 16CT1A_W12 16CT1A_W13

Classes in period "Summer Semester 2024/2025" (future)

Time span:	2025-02-17 - 2025-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Laboratory, 56 hours more information
Coordinators:	Jarosław Grobelny
Group instructors:	(unknown)
Students list:	(inaccessible to you)
Examination:	(in Polish) Zaliczenie lub ocena
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Practical - the method of the project (multimedia presentation) Verbal - suggestion (Talk)
Method and Criteria of Assessment:	Written test and a multimedia presentation, presence and class
Course Content:	1. Nanometals 2. Nanopowders and sintered ceramics 3. Surface monolayers 4. Nanofibers 5. Design of materials at the nanoscale: self-assembling nanostructured molecular materials and devices 6. Design of materials at the nanoscale: preparation of thin films using the Langmuir-Blodgett technique 7. Design of materials at the nanoscale: sol-gel processes 8. TiO2 - the material used in nanotechnology 9. The quantum dots and quantum wires 10. Bio-inspired nanomaterials 11. Photonic crystals 12. DNA as a structural element in nanotechnology 13. Solar cells and fuel 14. A bit of technology: LED, OLED, SED
Bibliography:	- Robert W. Kelsall, Ian W. Hamley, Mark Geoghegan Nanotechnologie PWN 2009 - Krzysztof Kurzydłowski, Małgorzata Lewandowska Nanomateriały inżynierskie, konstrukcyjne i funkcjonalne PWN 2010 - Anna Świderska-Środa, Witold Łojkowski, Małgorzata Lewandowska, Krzesztof Kurzudłowski, Świat Nanocząstek PWN 2016

Classes in period "Summer Semester 2023/2024" (in progress)

Time span:	2024-02-26 - 2024-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Laboratory, 30 hours more information
Coordinators:	Jarosław Grobelny
Group instructors:	Jarosław Grobelny, Aneta Kisielewska, Katarzyna Ranoszek-Soliwoda
Students list:	(inaccessible to you)
Examination:	(in Polish) Zaliczenie lub ocena
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Practical - the method of the project (multimedia presentation) Verbal - suggestion (Talk)
Method and Criteria of Assessment:	Written test and a multimedia presentation, presence and class
Course Content:	1. Nanometals 2. Nanopowders and sintered ceramics 3. Surface monolayers 4. Nanofibers 5. Design of materials at the nanoscale: self-assembling nanostructured molecular materials and devices 6. Design of materials at the nanoscale: preparation of thin films using the Langmuir-Blodgett technique 7. Design of materials at the nanoscale: sol-gel processes 8. TiO2 - the material used in nanotechnology 9. The quantum dots and quantum wires 10. Bio-inspired nanomaterials 11. Photonic crystals 12. DNA as a structural element in nanotechnology 13. Solar cells and fuel 14. A bit of technology: LED, OLED, SED
Bibliography:	- Robert W. Kelsall, Ian W. Hamley, Mark Geoghegan Nanotechnologie PWN 2009 - Krzysztof Kurzydłowski, Małgorzata Lewandowska Nanomateriały inżynierskie, konstrukcyjne i funkcjonalne PWN 2010 - Anna Świderska-Środa, Witold Łojkowski, Małgorzata Lewandowska, Krzesztof Kurzudłowski, Świat Nanocząstek PWN 2016

Classes in period "Summer Semester 2022/2023" (past)

Time span:	2023-02-20 - 2023-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Laboratory, 30 hours more information
Coordinators:	Jarosław Grobelny
Group instructors:	Jarosław Grobelny, Aneta Kisielewska, Ireneusz Piwoński, Katarzyna Ranoszek-Soliwoda, Renata Stanecka-Badura
Students list:	(inaccessible to you)
Examination:	(in Polish) Zaliczenie lub ocena
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Practical - the method of the project (multimedia presentation) Verbal - suggestion (Talk)
Method and Criteria of Assessment:	Written test and a multimedia presentation, presence and class
Course Content:	1. Nanometals 2. Nanopowders and sintered ceramics 3. Surface monolayers 4. Nanofibers 5. Design of materials at the nanoscale: self-assembling nanostructured molecular materials and devices 6. Design of materials at the nanoscale: preparation of thin films using the Langmuir-Blodgett technique 7. Design of materials at the nanoscale: sol-gel processes 8. TiO2 - the material used in nanotechnology 9. The quantum dots and quantum wires 10. Bio-inspired nanomaterials 11. Photonic crystals 12. DNA as a structural element in nanotechnology 13. Solar cells and fuel 14. A bit of technology: LED, OLED, SED
Bibliography:	- Robert W. Kelsall, Ian W. Hamley, Mark Geoghegan Nanotechnologie PWN 2009 - Krzysztof Kurzydłowski, Małgorzata Lewandowska Nanomateriały inżynierskie, konstrukcyjne i funkcjonalne PWN 2010 - Anna Świderska-Środa, Witold Łojkowski, Małgorzata Lewandowska, Krzesztof Kurzudłowski, Świat Nanocząstek PWN 2016

Classes in period "Summer Semester 2021/2022" (past)

Time span:	2022-02-21 - 2022-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Laboratory, 30 hours more information
Coordinators:	Jarosław Grobelny
Group instructors:	Aneta Kisielewska, Katarzyna Ranoszek-Soliwoda
Students list:	(inaccessible to you)
Examination:	(in Polish) Zaliczenie lub ocena
(in Polish) Czy IRK BWZ?:	(in Polish) T

Classes in period "Summer Semester 2020/2021" (past)

Time span:	2021-03-08 - 2021-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Laboratory, 56 hours more information
Coordinators:	Jarosław Grobelny
Group instructors:	Aneta Kisielewska, Katarzyna Ranoszek-Soliwoda
Students list:	(inaccessible to you)
Examination:	(in Polish) Zaliczenie lub ocena
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Practical - the method of the project (multimedia presentation) Verbal - suggestion (Talk)
Method and Criteria of Assessment:	Written test and a multimedia presentation, presence and class
Course Content:	1. Nanometals 2. Nanopowders and sintered ceramics 3. Surface monolayers 4. Nanofibers 5. Design of materials at the nanoscale: self-assembling nanostructured molecular materials and devices 6. Design of materials at the nanoscale: preparation of thin films using the Langmuir-Blodgett technique 7. Design of materials at the nanoscale: sol-gel processes 8. TiO2 - the material used in nanotechnology 9. The quantum dots and quantum wires 10. Bio-inspired nanomaterials 11. Photonic crystals 12. DNA as a structural element in nanotechnology 13. Solar cells and fuel 14. A bit of technology: LED, OLED, SED
Bibliography:	- Robert W. Kelsall, Ian W. Hamley, Mark Geoghegan Nanotechnologie PWN 2009 - Krzysztof Kurzydłowski, Małgorzata Lewandowska Nanomateriały inżynierskie, konstrukcyjne i funkcjonalne PWN 2010 - Anna Świderska-Środa, Witold Łojkowski, Małgorzata Lewandowska, Krzesztof Kurzudłowski, Świat Nanocząstek PWN 2016

Classes in period "Summer Semester 2019/2020" (past)

Time span:	2020-02-24 - 2020-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Laboratory, 56 hours more information
Coordinators:	Jarosław Grobelny
Group instructors:	Aneta Kisielewska, Maciej Psarski, Katarzyna Ranoszek-Soliwoda, Renata Stanecka-Badura
Students list:	(inaccessible to you)
Examination:	Course - (in Polish) Zaliczenie lub ocena Laboratory - (in Polish) Ocena zgodna z regulaminem studiów
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Practical - the method of the project (multimedia presentation) Verbal - suggestion (Talk)
Method and Criteria of Assessment:	Written test and a multimedia presentation, presence and class
Course Content:	1. Nanometals 2. Nanopowders and sintered ceramics 3. Surface monolayers 4. Nanofibers 5. Design of materials at the nanoscale: self-assembling nanostructured molecular materials and devices 6. Design of materials at the nanoscale: preparation of thin films using the Langmuir-Blodgett technique 7. Design of materials at the nanoscale: sol-gel processes 8. TiO2 - the material used in nanotechnology 9. The quantum dots and quantum wires 10. Bio-inspired nanomaterials 11. Photonic crystals 12. DNA as a structural element in nanotechnology 13. Solar cells and fuel 14. A bit of technology: LED, OLED, SED
Bibliography:	- Robert W. Kelsall, Ian W. Hamley, Mark Geoghegan Nanotechnologie PWN 2009 - Krzysztof Kurzydłowski, Małgorzata Lewandowska Nanomateriały inżynierskie, konstrukcyjne i funkcjonalne PWN 2010 - Anna Świderska-Środa, Witold Łojkowski, Małgorzata Lewandowska, Krzesztof Kurzudłowski, Świat Nanocząstek PWN 2016

Classes in period "Summer Semester 2018/2019" (past)

Time span:	2019-02-18 - 2019-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Laboratory, 56 hours more information
Coordinators:	Jarosław Grobelny
Group instructors:	Jarosław Grobelny, Ireneusz Piwoński, Maciej Psarski, Katarzyna Ranoszek-Soliwoda, Renata Stanecka-Badura
Students list:	(inaccessible to you)
Examination:	Course - (in Polish) Zaliczenie lub ocena Laboratory - (in Polish) Ocena zgodna z regulaminem studiów
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Practical - the method of the project (multimedia presentation) Verbal - suggestion (Talk)
Method and Criteria of Assessment:	Written test and a multimedia presentation, presence and class
Course Content:	1. Nanometals 2. Nanopowders and sintered ceramics 3. Surface monolayers 4. Nanofibers 5. Design of materials at the nanoscale: self-assembling nanostructured molecular materials and devices 6. Design of materials at the nanoscale: preparation of thin films using the Langmuir-Blodgett technique 7. Design of materials at the nanoscale: sol-gel processes 8. TiO2 - the material used in nanotechnology 9. The quantum dots and quantum wires 10. Bio-inspired nanomaterials 11. Photonic crystals 12. DNA as a structural element in nanotechnology 13. Solar cells and fuel 14. A bit of technology: LED, OLED, SED
Bibliography:	- Robert W. Kelsall, Ian W. Hamley, Mark Geoghegan Nanotechnologie PWN 2009 - Krzysztof Kurzydłowski, Małgorzata Lewandowska Nanomateriały inżynierskie, konstrukcyjne i funkcjonalne PWN 2010 - Anna Świderska-Środa, Witold Łojkowski, Małgorzata Lewandowska, Krzesztof Kurzudłowski, Świat Nanocząstek PWN 2016

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