Unit OPTOELECTRONIC PROPERTIES OF MATERIALS
- Course
- Chemical sciences
- Study-unit Code
- A002021
- Curriculum
- Chimica fisica
- Teacher
- Loredana Latterini
- Teachers
-
- Loredana Latterini
- Paolo Foggi (Codocenza)
- Hours
- 28 ore - Loredana Latterini
- 28 ore (Codocenza) - Paolo Foggi
- CFU
- 8
- Course Regulation
- Coorte 2024
- Offered
- 2024/25
- Learning activities
- Caratterizzante
- Area
- Discipline chimiche inorganiche e chimico-fisiche
- Academic discipline
- CHIM/02
- Type of study-unit
- Obbligatorio (Required)
- Type of learning activities
- Attività formativa monodisciplinare
- Language of instruction
- English
- Contents
- Methods and models to describe the electronic and optical behavior of a material, taken as an organic or inorganic collective system.
Relationship between chemical-physical properties and dimensionality of materials;
methods for describing the main electronic and optical properties of nanostructured and nanohybrid materials. - Reference texts
- Teaching material recommended and / or made available by the teachers.
- Educational objectives
- Regularly following the course regularly and successfully, the student will acquire:
- knowledge of the principles that determine the electronic and chemical properties of organic and inorganic materials;
- knowledge of dimensional and surface effects on the electronic properties of nanomaterials;
- ability to rationalize the optical and spectroscopic phenomena and being able to describe them, using the basic principles and models acquired;
- ability to use a technical-scientific language appropriate to the problems dealt with. - Prerequisites
- In order to understand the conceptual contents and successfully attend the course, the student should already own some basic knowledge on:
- Maxwell's equations
- Chemical bonds; molecular orbitals model.
- Quantum bases of matter radiation interaction. - Teaching methods
- The course is organized in two parts of classroom lectures on all topics of the course with the help of video devices:
The first part (for a total of 4 ECTS) deals with the development of methods and models to describe the behavior of organic or inorganic collective systems
The second part (for a total of 4 ECTS) uses the methods and models to describe the main properties of nanostructured and nano hybrid materials. - Other information
- Learning verification modality
- The evaluation is conducted by an oral exam, which consists of a discussion lasting about 30-45 minutes aimed at ascertaining the level of knowledge and understanding achieved by students on the theoretical and methodological implications mentioned in the program.
he oral exam will also test the communication skills of the student with scientific jargon proper device and the ability to apply theoretical concepts to practical exercises and experiments.
For information on support services for students with disabilities and / or DSA visit the page http://www.unipg.it/disabilita-e-dsa - Extended program
- Outline: Crystalline state. Translational order: simple and complex lattices, primitive cell. Covalent crystals: phonons and excitons. Thermal capacity. Ionic crystals:polaritons and plasmons. Phonon-electron interaction. Optical absorption in semiconductors.
Two- and one-dimension crystals. Quantum hetero-structures. Excitons in quantum structures. Intra-band and inter-band transitions. Light emitting devices. - Obiettivi Agenda 2030 per lo sviluppo sostenibile
- The course is consistent with the Agenda 2030 objectives for sustainable development; the course addresses allows you to acquire the basic knowledge needed to guarantee the understanding of the interactions between electromagnetic radiation and materials. The skills acquired will allow us to develop devices to improve the well-being of all people and optimize the exploitation of electromagnetic radiation.