Menù principale
B030918 - NANOSYSTEMS FOR BIOTECHNOLOGY, WITH LAB
Main information
Teaching Language
Course Content
Suggested readings
Learning Objectives
Prerequisites
Teaching Methods
Further information
Type of Assessment
Course program
Sustainable Development Goals 2030
Academic Year 2023-24
Course year
Third year - First Semester
Belonging Department
Experimantal and Clinical Medicine
Course Type
Single education field course
Scientific Area
CHIM/02 - PHYSICAL CHEMISTRY
Credits
6
Teaching Hours
56
Teaching Term
18/09/2023 ⇒ 22/12/2023
Attendance required
No
Type of Evaluation
Final Grade
Course Content
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Course program
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Lectureship
Teaching Language
Italian
Course Content
Fundamentals of nanostructured systems. This course is based on a
physico-chemical approach both for the subjects (metal nanoparticles,
polymer aggregates, soft matter structures) and for the
characterization methods described. Basic concepts on surface
properties, intermolecular forces and chemical equilibrium are revised.
Wide space is given to the application of nanosystems in the biomedical
field and in the context of advanced materials.
physico-chemical approach both for the subjects (metal nanoparticles,
polymer aggregates, soft matter structures) and for the
characterization methods described. Basic concepts on surface
properties, intermolecular forces and chemical equilibrium are revised.
Wide space is given to the application of nanosystems in the biomedical
field and in the context of advanced materials.
Suggested readings (Search our library's catalogue)
Slides and scientific reviews are provided by the teacher.
Selected topics are taken from the following books:
- "Fundamentals of Soft Matter Science" di Linda Hirst, CRC Press, 2019
(ISBN 9781138724440)
- "Il nano-mondo che verrà. Verso la società nanotecnologica" di Federico
Neresini, Il Mulino 2011 (ISBN 9788815149299 )
Selected topics are taken from the following books:
- "Fundamentals of Soft Matter Science" di Linda Hirst, CRC Press, 2019
(ISBN 9781138724440)
- "Il nano-mondo che verrà. Verso la società nanotecnologica" di Federico
Neresini, Il Mulino 2011 (ISBN 9788815149299 )
Learning Objectives
This course is aimed at providing basic knowledge to understand how processes which generate auto-organization occur.
Examples are mainly taken from biological systems and from innnovative technologies.
Examples are mainly taken from biological systems and from innnovative technologies.
Prerequisites
Notions from the courses of general chemistry, organic chemistry and
elements of thermodynamics
elements of thermodynamics
Teaching Methods
Classes, seminars and laboratory experiences.
This course partially makes use of online resources.
This course partially makes use of online resources.
Further information
Upon request of the student, the teacher can propose a brief document to be studied and presented during the examination. If this presentation is sufficiently well done, 1 point will be added to the final grade.
Type of Assessment
Written report on the laboratory experience; oral exams with typical
duration of 30-40 minutes.
On a voluntary basia the students can discuss one of the scientific paper presented in class and obtain (if positively evaluated)
an additional point in the final grade
duration of 30-40 minutes.
On a voluntary basia the students can discuss one of the scientific paper presented in class and obtain (if positively evaluated)
an additional point in the final grade
Course program
Fundamentals of nanostructured systems. This course is based on a
physico-chemical approach both for the subjects (metal nanoparticles,
polymer aggregates and soft matter structures) and for the
characterization methods described. Basic concepts on surface
properties, intermolecular forces and chemical equilibrium are revised.
Wide space is given to the application of nanosystems in the biomedical
field and in the context of advanced materials.
physico-chemical approach both for the subjects (metal nanoparticles,
polymer aggregates and soft matter structures) and for the
characterization methods described. Basic concepts on surface
properties, intermolecular forces and chemical equilibrium are revised.
Wide space is given to the application of nanosystems in the biomedical
field and in the context of advanced materials.
Sustainable Development Goals 2030
Discussion of the drawbacks connected with large scale use of nanotechnologies and possible solutions of this problem.