FACULTY OF ENGINEERING
CHEMICAL ENGINEERING
Course Name   NANOCHEMISTRY AND APPLICATIONS
Semester Course Code Theoretical / Practice time ECTS
5 1216516 2,00 / 0,00 5,00
Course Degree Bachelor's degree
Course Language İngilizce
Format of Delivery: Face to Face
Course Coordinator Assist. Prof. Dr. Serpil Edebali
Coordinator e-mail serpilcetin gmail.com
Instructors
Asistant Instructors
Course Objectives To learn the fundamentals of science emerging at nanoscale and to investigate its application fields.
Basic Sciences Engineering Scinces Social Sciences Educational Sciences Artistic sciences Medical Science Agricultural sciences
40 60 0 0 0 0 0
Course Learning Methods and Techniquies
The lectures will be performed in a classroom via deions of subjects, homework and discussions.
Week Course Content Resource
1 Introduction to nanochemistry Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
2 Nanomanipulation Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
3 Molecular devices Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
4 Self-assembled monolayers Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
5 Soft-litography Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
6 Nanoparticles Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
7 Bottom-up and up-bottom approaches Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
8 Fullerens and carbon nanotubes Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
9 Dendrimers Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
10 Mid-term
11 Fibers, gels and polymers Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
12 Nanobiology and biomimetics chemistry Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
13 Risks about nanochemistry Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
14 Developments of nanochemistry in the future Geoffrey A Ozin Andre´ C Arsenault Ludovico Cademartiri, Nanochemistry : a chemical approach to nanomaterials, 2009. Jonathan W. Steed, David R. Turner, Karl J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry, 2007
Assesment Criteria   Mid-term exam Final exam
  Quantity Percentage Quantity Percentage  
Term Studies : - -
Attendance / Participation : - -
Practical Exam : - -
Special Course Exam : - -
Quiz : - -
Homework : - -
Presentations and Seminars : - -
Projects : - -
Workshop / Laboratory Applications : - -
Case studies : - -
Field Studies : - -
Clinical Studies : - -
Other Studies : - -
Mid-term exam   1 40
Final exam   1 60
ECTS WORK LOAD TABLE   Number Duration
Course Duration : 15 2
Classroom Work Time : 0 0
Presentations and Seminars : 1 5
Course Internship : 1 3
Workshop / Laboratory Applications : - -
Field Studies : - -
Case studies : - -
Projects : 13 3
Homework : 4 5
Quiz : 2 4
Mid-term exam : 1 20
Final Exam : 1 25
ECTS 5
No COURSE LEARNING OUTCOMES CONTRIBUTION
D.Ö.Ç. 1 1. The student identifies the particles at nanoscale and their effects. 4
D.Ö.Ç. 2 2. The student understands the difference between nanochemsitry and solid state chemistry. 4
D.Ö.Ç. 3 3. The student understands basic of nanoparticle preparation and modification. 4
D.Ö.Ç. 4 4. The student covers functionalization and its performing. 3
D.Ö.Ç. 5 5. The student learns examples for nanochemistry applications and advantages. 3
D.Ö.Ç. 6 6. The student gets information about fullerens and carbon nanotubes. 3
D.Ö.Ç. 7 7. The student learns dendrimers, fibers and gels. 4
D.Ö.Ç. 8 8. The student forms a relationship between nanoscience and biological systems. 4
D.Ö.Ç. 9 9. The student recognizes the risks of nanochemistry. 4
D.Ö.Ç. 10 10. The student gets information for future developments of nanochemistry. 4
* 1: Zayıf - 2: Orta - 3: İyi - 4: Çok İyi
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