Università degli Studi di Perugia

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Degree course in Chemical sciences

Degree type Second cycle degree course
Academic year 2018/19
Course Regulation DM270
Course Code LM27
Class (Ministerial code) LM-54
Duration 2 Years
Type of access Admissions test not required
Curriculum
CHIMICA FISICA
CHIMICA INORGANICA
CHIMICA ORGANICA
CORSO GENERICO
ENVIRONMENTAL AND SUSTAINABLE CHEMISTRY
Responsible Didactic Structure Department of chemistry, biology and biotechnology
Teaching Location Perugia
Course Lecturers
Language English, italian
Teaching procedures Convenzionale
UnitLanguage
Anno
Period
CFU
didactics of chemistry
In all curricula
Italian
1
I
6
inorganic materials: synthetis structure and property
Curriculum: Chimica inorganica per l'energia e la catalisi
Italian
1
II
7
methods for the characterization of inorganic compounds
Curriculum: Chimica inorganica per l'energia e la catalisi
Italian
1
II
6
Advanced english
In all curricula
1
I
3
Advanced organic chemistry
Curriculum: Chimica organica
Italian
1
II
8
Advanced physical chemistry
Curriculum: Chimica fisica
Italian
1
II
13
Analytical techniques for environmental and cultural heritage chemistry
In all curricula
Italian
1
I
6
Applied molecular sciences
In all curricula
Italian
1
I
6
Chemical reaction dynamics
Curriculum: Chimica fisica
Italian
1
II
8
Computational chemistry
Curriculum: Theoretical chemistry and computational modelling
English
1
II
6
Dynamics of chemical reactions and statistical mechanics
Curriculum: Theoretical chemistry and computational modelling
Italian
1
II
6
Environmental chemistry
Curriculum: Environmental and sustainable chemistry
English
1
II
7
Green chemistry
Curriculum: Environmental and sustainable chemistry
English
1
II
8
Inorganic molecular compounds: chemistry, catalysis and energy
Curriculum: Chimica inorganica per l'energia e la catalisi
Italian
1
II
7
Instrumental techniques for environmental sciences
Curriculum: Environmental and sustainable chemistry
English
1
II
8
Laboratory for computer programming and numerical methods
Curriculum: Theoretical chemistry and computational modelling
Italian
1
I
2
Materials for renewable energy sources
Curriculum: Environmental and sustainable chemistry
English
1
II
6
Molecular quantum chemistry
Curriculum: Theoretical chemistry and computational modelling
English
1
II
9
Molecular spectroscopy
Curriculum: Theoretical chemistry and computational modelling
Italian
1
II
8
Molecular spectroscopy
Curriculum: Chimica fisica
Italian
1
II
8
Nanostructured systems
In all curricula
Italian
1
I
6
Organic chemistry 3
Curriculum: Chimica organica
Italian
1
II
12
Professional experiences
Curriculum: Chimica fisica
Italian
1
I
2
Professional experiences
Curriculum: Chimica organica
Italian
1
I
2
Professional experiences
Curriculum: Chimica inorganica per l'energia e la catalisi
Italian
1
I
2
Professional experiences
Curriculum: Environmental and sustainable chemistry
Italian
1
I
2
Reach, clp regulations and chemical risk assessment
In all curricula
Italian
1
I
2
Spectroscopic methods for organic chemistry
In all curricula
Italian
1
I
6
Theoretical approaches for the study of molecules and inorganic materials
Curriculum: Chimica inorganica per l'energia e la catalisi
Italian
1
II
9
Weak interactions in organic chemistry
Curriculum: Chimica organica
Italian
1
II
9
Advanced english
In all curricula
2
II
3
Biogeochemistry
In all curricula
Italian
2
I
6
Bioinorganic chemistry
In all curricula
2
I
6
Chemistry and energy sources
In all curricula
2
I
6
Chemoinformatics
In all curricula
2
I
6
Computational approaches to organic reactions
In all curricula
2
I
6
Computational chemistry
In all curricula
2
I
6
Crystal chemistry
In all curricula
2
I
6
Enzymes in organic chemistry
In all curricula
2
I
6
Femtochemistry
In all curricula
2
I
6
Final examination
In all curricula
2
II
21
Industrial catalysis
In all curricula
2
I
6
Internschip
In all curricula
Italian
2
I
6
Internschip (2a part)
In all curricula
Italian
2
II
6
Modeling of organic molecules
In all curricula
2
I
6
Nmr spectroscopy
In all curricula
2
I
6
Non linear optics
In all curricula
English
2
I
6
Optional subject
In all curricula
Italian
2
I
12
Organic reaction mechanisms
In all curricula
2
I
6
Photochemistry
In all curricula
2
I
6
Stages outdoor
In all curricula
Italian
2
I
6
Stages outdoor (2a part)
In all curricula
2
II
6
Techniques and methods for microscopic characterization of materials
In all curricula
2
I
6
Theoretical methods for molecular dynamics
In all curricula
English
2
I
6
Traineeship 1st part
In all curricula
2
I
6
Traineeship 2nd part
In all curricula
2
II
6

Free-choice training activities

UnitPeriodCFU
Group GRUPPO AFFINI E INTEGRATIVE II ANNO
CFU (University training credits) required: 12
Computational approaches to organic reactions
6
I
Biogeochemistry
6
I
Advanced characterization of inorganic materials
6
I
Chemoinformatics
6
I
Bioinorganic chemistry
6
I
Bioorganic chemistry
6
I
Chemistry and energy sources
6
I
didactics of chemistry
6
I
Femtochemistry
6
I
Photochemistry
6
I
Experimental methods for the mechanism study of the organic reactions
6
I
Modeling of organic molecules
6
I
Non linear optics
6
I
Techniques and methods for microscopic characterization of materials
6
I
Theoretical methods for molecular dynamics
6
I

Legenda

Course level "LT"
First cycle degree course

Course level "LM"
Second cycle degree course

Reference

First cycle Degree "Laurea"
First-level Degree awarded at the end of a three-year course. Also known as “bachelor” degree (180 CFU). A high school diploma is required for admission.

Second cyclel Degree "Laurea magistrale"
Second-level Degree awarded at the end of a two-year course (120 CFU). A first-level degree is required for admission.

Single-cycle Degree “Laurea magistrale a ciclo unico”
Single-cycle Degree awarded at the end of a five-year (300 CFU) or six-year (360 CFU) course. A high school diploma is required for admission.


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