Academic Year 2020/2021 - 2° Year - Curriculum Chimica dei Materiali e Nanotecnologie
Teaching Staff: Nunzio TUCCITTO
Credit Value: 6
Scientific field: CHIM/02 - Physical chemistry
Taught classes: 14 hours
Laboratories: 48 hours
Term / Semester:

Learning Objectives

The main objective of the course is the development of knowledge in the field of experimental physical chemistry applied to materials science. The training course is developed in three modules: Simulate, Assemble and Evaluate. During the first module "Simulate" we learn the key concepts of the numerical resolution methods of the equations governing the typical processes of materials chemistry. During the second "Assemble" we learn the methods for data acquisition from opto-electronic devices based on functional materials. During the third module "Evaluate" we address the problems deriving from the management of "big-data" in the scientific field, with particular reference to the chemistry of materials.

Course Structure

The course is structured in two sections. The first part of classroom​ lectures and the second part of experimental laboratory activities

Should teaching be carried out in mixed mode or remotely, it may be necessary to introduce changes with respect to previous statements, in line with the programme planned and outlined in the syllabus.

Detailed Course Content

Section 1 ° Simulate (Modeling)

Educational Goals

To know

Learn the key concepts of numerical equation resolution methods governing typical materials chemistry processes

Take practical / application knowledge with Monte Carlo simulation methods, coarse-grained, etc.

To do (in comfort-zone)

Modeling of diffusion phenomena, spinodal decomposition, nucleation, and growth

Simulation of complex reaction kinetics

"Reasoned" fitting of stress/strain data of materials with viscoelastic properties

To apply (in "unknown" contexts)

Programming of a simple numerical resolution algorithm of integrals and derivatives

Apply the Montecarlo approach for the simulation of Random Sequential Adsorption processes

Section 2 ° Assemble (Devices)

Educational Goals

To know

Learns methods for data acquisition from active optoelectronic devices based on functional materials

To (in comfort-zone)

Synthesis and deposition of conductive polymers

Deposition of microelectrodes and connection to functional materials

To apply (in "unknown" contexts)

Setting-up of stations for data acquisition from analog/digital

Realization of a device for the sensing of VOC vapors


Section 3 ° Evaluate (Data-treatment)

Educational Goals

To know

Conceiving the concept of "Big-data". Understand the problems deriving from their management in the scientific field, with particular reference to the chemistry of materials

To do (in comfort-zone)

Critical analysis and evaluation of data processing methodologies in specific case studies

To apply (in "unknown" contexts)

Ability to manage "Big-data". Design and implement a suitable data treatment plan

Textbook Information

Please refer to studium website