Physics of Molecular Aggregates
A.Y. 2021/2022
Learning objectives
The course aims at providing an introduction to the physics of (nano)aggregates (metallicm quantum dots, and molecular) both theoretical, numerical and phenomenological approaches will be discussed. We will revise the peculiar thermodynamical, optical, and electronic properties of nanoaggreates. Thanks to them nanoaggregates are considered a new states of matter, and they are employed as the building-blocks of future, novel materials and future technological applications. The student will gain the capabilities to reading and understanding the state-of-the-art literature in the field.
Expected learning outcomes
At the end of the course, students are expected to have the following skills:
1) will gain a rational view of matter at the nanoscale, and why and how is changing our daily life
2) will be able to describe the different morphologies of nano-aggregates and their trend with size and chemical composition
3) will know how to use possible approaches (including numerical) to sample potential energy surfaces
4) will know the major aspects of the phenomenology of (nano) aggregates and its dependence on the morphology, composition, and size of the system
5) will be able to discuss how optical properties depend on the morphology, composition, and size of the (nano)aggreagtes
6) will be able to discuss how catalytic properties depend on the morphology, composition, and size of the (nano)aggreagtes
1) will gain a rational view of matter at the nanoscale, and why and how is changing our daily life
2) will be able to describe the different morphologies of nano-aggregates and their trend with size and chemical composition
3) will know how to use possible approaches (including numerical) to sample potential energy surfaces
4) will know the major aspects of the phenomenology of (nano) aggregates and its dependence on the morphology, composition, and size of the system
5) will be able to discuss how optical properties depend on the morphology, composition, and size of the (nano)aggreagtes
6) will be able to discuss how catalytic properties depend on the morphology, composition, and size of the (nano)aggreagtes
Lesson period: Second semester
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course cannot be attended as a single course. Please check our list of single courses to find the ones available for enrolment.
Course syllabus and organization
Single session
Responsible
Lesson period
Second semester
If the sanitary emergency should continue, the lessons will take place remotely, mainly in synchronous mode by use of Zoom or Microsoft Teams. The asynchronous mode will be used and the lecture notes (slides) will be left available to students on the Ariel platform.
The assessment is an oral presentation, time and date to be agreed.
The assessment is an oral presentation, time and date to be agreed.
Course syllabus
Clusters and nanoparticles: Shape, Sizes, Chemical Composition and chemical ordering. Introduction to Experiments. Rare Gas Clusters. Molecular Clusters (Water). Metal Clusters I: Models. Metal Clusters II: Properties. Semiconductor Clusters. Ionic Clusters. Clusters in Action (application to catalysis, optics, medicine, arts, ...)
Prerequisites for admission
2. Mandatory modules in the BSc programme in Physics (Introduction to structure of matter, Introduction to physical chemistry, calculus and geometry)
Teaching methods
Face-to-face lectures. If possible (to be confirmed) one or two numerical modelling laboratories.
Teaching Resources
Atomic and Molecular Clusters
By Roy L. Johnston
Published April 25, 2002 by CRC Press
By Roy L. Johnston
Published April 25, 2002 by CRC Press
Assessment methods and Criteria
There is an oral examination only. Each student should prepare a mini-project on a selected topic. The presentation is about 20' and it will be followed by a 5-10 minutes of questions (both on the selected topic and on other subjects of the module)
Professor(s)
Reception:
send an email
zoom/teams/slack/office -- as more convenient