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Solid state chemistry: from the macro to the nano
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Solid state chemistry: from the macro to the nano
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Academic year 2021/2022
- Course ID
- CHI0155
- Teaching staff
- Prof. Maria Cristina Paganini (Lecturer)
Prof. Valter Maurino (Lecturer)
Giuseppina Cerrato (Lecturer) - Degree course
- MaMaself
Materials Science - Year
- 1st year
- Teaching period
- First semester
- Type
- Characterizing Related or integrative
- Credits/Recognition
- 10
- Course disciplinary sector (SSD)
- CHIM/01 - chimica analitica
CHIM/03 - chimica generale e inorganica - Delivery
- Class Lecture + Lab Practicals
- Language
- English
- Attendance
- Obligatory
- Type of examination
- Oral + Lab Reports
- Prerequisites
- Students are supposed to Know the basis of matter structure and some basic properties connected to the chemical bonds, moreover some rudiments about crystalline materials (crystallographic planes and Miller index). Principles of the general and inorganic chemistry are necessary.
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Sommario del corso
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Course objectives
The course aims to present in an exhaustive and in-depth way the problems inherent to the structure and reactivity of inorganic materials and their macroscopic, photoelectrochemical and photophysical properties. In particular, it will be highlighted how is crucial knowing how to identify and interpret the role of various bulk and surface defects in the structure of a material. Knowing how to evaluate the possible effects on the structure and reactivity in low-dimensional materials.
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Results of learning outcomes
Students are supposed to become familiar with the relationship between structure and chemical bond; to be able to predict a structure according to the kind of chemical bond (ionic, covalent) that is formed; Knowing the role of defects in an inorganic material; Understand the photoelectrochemical and photophysical processes that can lead to photocatalytic activity and solar energy harvesting
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Course delivery
64 hours lessons
32 hours labAttendance to the lessons is non compulsory. Attendance to the laboratory is always compulsory. Each student should be present at least at the 70% of lab lessons.
The lessons will be in presence, moreover it will be the possibility to connect to the webex page https://unito.webex.com/meet/mariacristina.paganini and attend the lesson on line for the period 4/10/21-15/11/21
As for the lessons delivered by prof.ssa Giuseppina Cerrato, please use this link to Webex:
https://unito.webex.com/meet/giuseppina.cerrato
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Learning assessment methods
Exam with evaluation. The students will be invited to prepare a power point presentation on the basis of papers selected by the teachers according to the materials prepared in the laboratory. After this presentation a short discussion will follow. The subjects discussed in the lessons will be checked during this discussion.
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Support activities
After the lab, meeting with each group will be organized to discuss together with the teachers the obtained results
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Program
1. Crystalline structures of inorganic solids 1.1 Structures of inorganic solids 1.2 Relationship between ionic radius and crystalline structures
2. Synthesis of solid state inorganic materials (single crystal and polycrystalline materials)
3. Low-dimensional solids
4. Materials for catalysis and photocatalysis 4.1 Examples of heterogeneous catalysis (Hydrogenation catalysis - Ammonia synthesis - Asymmetric catalysis - Acid-base catalysis - Oxidation catalysis) 4.3 Materials for catalysis (Oxides - Sulphides - Supported metals)
5. Bond in inorganic solids 5.2 Theory of the crystalline field (Outline)
6. Oxides of transition metals 6.1 The band model 6.2 Hubbard's model 6.3 Insulating oxides 6.5 Impurities of transition metals 6.6 Magnetic Insulators (Magnetic Sorting of Localized Electrons) 6.7 Metal oxides (Metal / non-metal transition)
7. Defects and non-stoichiometry 7.1 Defects in oxides 7.2 Non-stoichiometric compounds
8.Photocatalysis and Photocatalysts
8.1 Basic concepts of photochemistry
8.2 Photoelectrochemistry of semiconductor oxides
8.3 Molecular and Semiconductor Photocatalysis
8.4 Application (water and air remediation, green chemistry, solar fuels generation, superhydrophilicity)9. Bioactive materials (biomaterials)
9.1 Historical background on biomaterials
9.2 First, second and third generation of biomaterials
9.3 Synthesis methods
9.4 Characterisation
9.5 ApplicationsSuggested readings and bibliography
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- Callister - Fundamental of materials science and engeneering: an introduction, Wiley
- Cotton, Wilkinson- Inorganic chemistry; Huheey – Inorganic chemistry
- Cox- Transition metal oxides, Oxford
- West – Basic solid state chemistry, Wiley
- H. Kisch - Semiconductor Photocatalysis, Wiley
- L. Hench & J. Jones - Biomaterials, Artificial Organs and Tissue Engineering (1st Edition), Woodhead Publishing
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Class schedule
Lessons: dal 04/10/2021 to 04/02/2022
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