Programme Description
Nanoscience investigates the nature and use of systems with components of nanometric size. It covers a range of scientific fields with potential applications in almost all branches of the economy. The basic goal of nanoscience is to understand the structure and dynamics of materials at the atomic and molecular level, on which their macroscopic properties are based. By knowing the methods for micromanipulation of atoms and molecules, it is possible to build new compounds, devices and machines with completely new properties and possibilities of use. Examples include research for the construction of atomic-sized computer components on silicon circuits, the synthesis of new compounds for the detection of individual viruses and bacteria, magnets at the level of individual molecules, micromotors, and compounds that use sunlight to control environmental pollutants.
Starting from the 2024/2025 academic year, the Erasmus Mundus module GREENANO is taking place at MPŠ, in cooperation with the Université de Lorraine and the Università degli Studi di Roma Tor Vergata. It trains a new generation of engineers, researchers and sustainability managers for the development of nanomaterials. The consortium develops close partnerships with industry and leading universities around the world, enabling students to develop the excellent knowledge needed to tackle the big challenges brought about by the green and digital transition. More information: https://www.greenanomaster.eu/.
Credit Framework (ECTS)
Total number of ECTS for the second-cycle study programme
|
120 ECTS
|
Required Courses
|
50 ECTS
|
Elective Courses
|
20 ECTS
|
Individual Research/Project Work
|
20 ECTS
|
Master Thesis
|
30 ECTS
|
Curriculum
1st YEAR (ECTS)
Required Courses (40 ECTS)
Introduction to Nanosciences and Nanotechnologies (10 ECTS)
Fundamentals of Physics of Materials (10 ECTS)
Fundamentals of Materials Chemistry (10 ECTS)
Seminar I (10 ECTS)
Elective Courses (20 ECTS)
2nd YEAR (ECTS)
Required Courses (10 ECTS)
Seminar II (10 ECTS)
Project: Individual Research/Project Work (20 ECTS)
Master Thesis (30 ECTS)
GREENANO Curriculum
1st YEAR (ECTS)
Required Courses (60 ECTS)
First Semester at Université de Lorraine (30 ECTS)
Second Semester at Tor Vergata (30 ECTS)
2nd YEAR (ECTS)
Required Courses (60 ECTS)
Introduction to Nanosciences and Nanotechnologies (10 ECTS)
Advanced Materials Processing (10 ECTS)
Introduction to Environmental Pollution (5 ECTS)
Introduction to Circular Economy (5 ECTS)
Master Thesis (30 ECTS)
Courses
Course |
Module |
Professor |
ECTS |
Concept of Sustainable Development
|
ST3,IKT2,NANO2,EKO,IKT3,NANO3,NANO,MEDIJI,EKO2,EKO3
|
prof. dr. Ivo Šlaus
|
3 ECTS |
Condensed Matter Theory
|
NANO2
|
prof. dr. Viktor Kabanov
|
10 ECTS |
Corporate Law and Dispute Settlement
|
ST3,IKT2,NANO2,EKO,IKT3,NANO3,NANO,MEDIJI,EKO2,EKO3
|
prof. dr. Lojze Ude
|
3 ECTS |
Economics for Researchers
|
ST3,IKT2,NANO2,EKO,IKT3,NANO3,NANO,MEDIJI,EKO2,EKO3
|
prof. dr. Sašo Polanec
|
3 ECTS |
Fundamentals of Materials Chemistry
|
NANO2
|
izr. prof. dr. Matjaž Spreitzer
|
10 ECTS |
Fundamentals of Physics of Materials
|
NANO2
|
prof. dr. Zdravko Kutnjak
|
10 ECTS |
Fundamentals of Physics of Nanomaterials
|
NANO2
|
prof. dr. Dragan Mihailović
|
10 ECTS |
Fundamentals of Synthesis of Nanomaterials
|
NANO2
|
prof. dr. Barbara Malič
|
10 ECTS |
Industrial Expert Knowledge and Project Work
|
ST3,IKT2,NANO2,EKO,IKT3,NANO3,NANO,MEDIJI,EKO2,EKO3
|
prof. dr. Gorazd Kandus
|
3 ECTS |
Innovation Management
|
ST3,IKT2,NANO2,EKO,IKT3,NANO3,NANO,MEDIJI,EKO2,EKO3
|
prof. dr. Peter Stanovnik
|
3 ECTS |
Master Thesis
|
IKT2,NANO2,EKO2
|
Prof. dr. Predstojnik / Head of Programme
|
20 ECTS |
Physics in Biology
|
NANO2
|
prof. dr. Janez Štrancar
|
10 ECTS |
Project 1: Individual Research/Project Work
|
IKT2,NANO2,EKO2
|
Prof. dr. Predstojnik / Head of Programme
|
10 ECTS |
Project 2: Individual Research/Project Work
|
IKT2,NANO2,EKO2
|
Prof. dr. Predstojnik / Head of Programme
|
20 ECTS |
Selected Chapters from Nanosciences and Nanotechnologies I
|
NANO2
|
prof. dr. Andreja Benčan Golob
|
10 ECTS |
Selected Chapters from Nanosciences and Nanotechnologies II
|
NANO2
|
prof. dr. Andreja Benčan Golob
|
10 ECTS |
Seminar I
|
NANO2
|
prof. dr. Barbara Malič
|
10 ECTS |
Seminar II
|
NANO2
|
prof. dr. Barbara Malič
|
10 ECTS |
Spectroscopy and Microscopy
|
NANO2
|
prof. dr. Miran Čeh
|
10 ECTS |
BASIC OBJECTIVES
The basic objective of this programme is to qualify the candidate for:
A) General competences
- ability for individual research work on the field of nanosciences and nanotechnologies,
- ability to research, select and organize information, as well as synthesize solution and anticipate their consequences,
- mastering of research methods, procedures and processes, development of critical and self-critical assessment,
- ability to use knowledge in practice,
- autonomy in professional work, as well as responsible and creative performance of activities,
- development of communication abilities and skills, particularly for communication in international environment,
- ethical reflection and commitment to professional ethics and regulations,
- cooperativeness, work on joint assignments and problems within a group and in international environment.
B) Subject-specific competences
- knowing the basic laboratory and spectroscopic techniques in nanoscience and nanotechnology,
- understanding the systems at atomic and molecular scale,
- ability to combine various skills and knowledge to identify and analyze nanotechnological issues,
- ability to analyze ethical aspects of practices, institutions and valuations associated with nanotechnology,
- continuing research & development work in the field of nanotechnology,
- knowing the concepts of nanotechnology,
- obtaining the basic natural-science and technical knowledge in the field of nanotechnology in the form of combining the existing solution.
RESEARCH AREAS
The Nanoscience and Nanotechnology Programme is a cross-disciplinary postgraduate study programme comprising the following research areas:
- Nanomaterials and nanochemistry,
- Nanophysics (including the physics of ultrathin layers, physics of nanotubes, physics of lateral nanostructures, physics of quantum dots, and methods for the analysis of nanostructures and the nanomanipulation of atoms and molecules),
- Biosciences,
- Advanced metalic materials,
- Nanomechanics (including the mechanics of time dependent materials).
All the courses include the provision of basic skills for successful communication with experts in the areas of economic and civil law, corporate microeconomics and project management, and the basics of sustainable development.
Special emphasis will be placed on research into:
- Nanocomposites and hybrid materials,
- "Smart" ceramic materials and thin films,
- Submicron fibres,
- Nanochemistry involving the synthesis of new molecules through the manipulation of individual atoms,
- Structural and molecular biology as prerequisites for utilizing knowledge of the human genome, understanding biological functions of particular proteins and the processes involving them,
- Biomaterials, particularly new types of agents and direct delivery of agents to the target sites,
- Molecular motors,
- "Smart" ferroelectrics and piezoelectrics,
- Organic and inorganic nanotubes, nanowires and quantum dots,
- "Smart" gels,
- Materials potentially usable for miniaturizing electronic components and elements for quantum computers,
- Materials usable for “spintronics” where spins are used instead of electrons to perform logic and other operations, and where a new degree of miniaturization is expected,
- New research techniques and methods to study the structure and dynamics of nanomaterials.
Similarly, there is a possibility for developing new areas in chemistry and pharmacy where new compounds are synthesized at the molecular level. The programme thus integrates a number of natural science and technical disciplines. Special emphasis is placed on the project-based research work of students, mentors and professors as an integral part of the study programme. Target knowledge and skills, which will be obtained by students in the areas of civil and commercial law, microeconomics, patent and intellectual property law, and the methods of raising "venture" capital, should enable the students, upon the completion of their studies, to better communicate with experts in these areas in order to develop and commercialize the results of nanotechnological research.