Studying at the University of Verona
Here you can find information on the organisational aspects of the Programme, lecture timetables, learning activities and useful contact details for your time at the University, from enrolment to graduation.
Academic calendar
The academic calendar shows the deadlines and scheduled events that are relevant to students, teaching and technical-administrative staff of the University. Public holidays and University closures are also indicated. The academic year normally begins on 1 October each year and ends on 30 September of the following year.
Course calendar
The Academic Calendar sets out the degree programme lecture and exam timetables, as well as the relevant university closure dates..
Period | From | To |
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Primo semestre | Oct 4, 2021 | Jan 28, 2022 |
Secondo semestre | Mar 7, 2022 | Jun 10, 2022 |
Session | From | To |
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Sessione invernale d'esame | Jan 31, 2022 | Mar 4, 2022 |
Sessione estiva d'esame | Jun 13, 2022 | Jul 29, 2022 |
Sessione autunnale d'esame | Sep 1, 2022 | Sep 30, 2022 |
Session | From | To |
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Sessione estiva LM8 | Jul 13, 2022 | Jul 13, 2022 |
Sessione autunnale LM8 | Oct 11, 2022 | Oct 11, 2022 |
Sessione invernale LM8 | Mar 9, 2023 | Mar 9, 2023 |
Period | From | To |
---|---|---|
Festa di Tutti i Santi | Nov 1, 2021 | Nov 1, 2021 |
Festa dell'Immacolata Concezione | Dec 8, 2021 | Dec 8, 2021 |
Festività natalizie | Dec 24, 2021 | Jan 2, 2022 |
Festa dell'Epifania | Jan 6, 2022 | Jan 7, 2022 |
Festività pasquali | Apr 15, 2022 | Apr 19, 2022 |
Festa della Liberazione | Apr 25, 2022 | Apr 25, 2022 |
Festività Santo Patrono di Verona | May 21, 2022 | May 21, 2022 |
Festa della Repubblica | Jun 2, 2022 | Jun 2, 2022 |
Chiusura estiva | Aug 15, 2022 | Aug 20, 2022 |
Exam calendar
Exam dates and rounds are managed by the relevant Science and Engineering Teaching and Student Services Unit.
To view all the exam sessions available, please use the Exam dashboard on ESSE3.
If you forgot your login details or have problems logging in, please contact the relevant IT HelpDesk, or check the login details recovery web page.
Academic staff
Study Plan
The Study Plan includes all modules, teaching and learning activities that each student will need to undertake during their time at the University.
Please select your Study Plan based on your enrollment year.
1° Year
Modules | Credits | TAF | SSD |
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2° Year activated in the A.Y. 2022/2023
Modules | Credits | TAF | SSD |
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Modules | Credits | TAF | SSD |
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Modules | Credits | TAF | SSD |
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Modules | Credits | TAF | SSD |
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Legend | Type of training activity (TTA)
TAF (Type of Educational Activity) All courses and activities are classified into different types of educational activities, indicated by a letter.
Type D and Type F activities
Le attività formative di tipologia D sono a scelta dello studente, quelle di tipologia F sono ulteriori conoscenze utili all’inserimento nel mondo del lavoro (tirocini, competenze trasversali, project works, ecc.). In base al Regolamento Didattico del Corso, alcune attività possono essere scelte e inserite autonomamente a libretto, altre devono essere approvate da apposita commissione per verificarne la coerenza con il piano di studio. Le attività formative di tipologia D o F possono essere ricoperte dalle seguenti attività.
1. Insegnamenti impartiti presso l'Università di Verona
Comprendono gli insegnamenti sotto riportati e/o nel Catalogo degli insegnamenti (che può essere filtrato anche per lingua di erogazione tramite la Ricerca avanzata).
Modalità di inserimento a libretto: se l'insegnamento è compreso tra quelli sottoelencati, lo studente può inserirlo autonomamente durante il periodo in cui il piano di studi è aperto; in caso contrario, lo studente deve fare richiesta alla Segreteria, inviando a carriere.scienze@ateneo.univr.it il modulo nel periodo indicato.
2. Attestato o equipollenza linguistica CLA
Oltre a quelle richieste dal piano di studi, per gli immatricolati dall'A.A. 2021/2022 vengono riconosciute:
- Lingua inglese: vengono riconosciuti 3 CFU per ogni livello di competenza superiore a quello richiesto dal corso di studio (se non già riconosciuto nel ciclo di studi precedente).
- Altre lingue e italiano per stranieri: vengono riconosciuti 3 CFU per ogni livello di competenza a partire da A2 (se non già riconosciuto nel ciclo di studi precedente).
Tali cfu saranno riconosciuti, fino ad un massimo di 6 cfu complessivi, di tipologia F se il piano didattico lo consente, oppure di tipologia D. Ulteriori crediti a scelta per conoscenze linguistiche potranno essere riconosciuti solo se coerenti con il progetto formativo dello studente e se adeguatamente motivati.
Gli immatricolati fino all'A.A. 2020/2021 devono consultare le informazioni che si trovano qui.
Modalità di inserimento a libretto: richiedere l’attestato o l'equipollenza al CLA e inviarlo alla Segreteria Studenti - Carriere per l’inserimento dell’esame in carriera, tramite mail: carriere.scienze@ateneo.univr.it
3. Competenze trasversali
Scopri i percorsi formativi promossi dal TALC - Teaching and learning center dell'Ateneo, destinati agli studenti regolarmente iscritti all'anno accademico di erogazione del corso https://talc.univr.it/it/competenze-trasversali
Modalità di inserimento a libretto: non è previsto l'inserimento dell'insegnamento nel piano di studi. Solo in seguito all'ottenimento dell'Open Badge verranno automaticamente convalidati i CFU a libretto. La registrazione dei CFU in carriera non è istantanea, ma ci saranno da attendere dei tempi tecnici.
4. Periodo di stage/tirocinio
Oltre ai CFU previsti dal piano di studi (verificare attentamente quanto indicato sul Regolamento Didattico): qui informazioni su come attivare lo stage.
Insegnamenti e altre attività che si possono inserire autonomamente a libretto
years | Modules | TAF | Teacher |
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1° 2° | History and Didactics of Geology | D |
Guido Gonzato
(Coordinator)
|
years | Modules | TAF | Teacher |
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1° 2° | Python programming language | D |
Giulio Mazzi
(Coordinator)
|
Bioenergy and Biofuels (2022/2023)
Teaching code
4S008300
Credits
6
Language
Italian
Scientific Disciplinary Sector (SSD)
BIO/04 - PLANT PHYSIOLOGY
The teaching is organized as follows:
TEORIA
LABORATORIO
Learning objectives
The course aims to provide bases on the definition and characteristics of fuels of different origin and intended use, focusing on innovative biotechnological solutions for the production of biofuels. Among these, the bio-fuels of I, II, III and IV generation are particularly defined, including bioethanol, biogas, biodiesel and bio-hydrogen and the implications of their use for production processes and transport as well as the consequences for the environment. The course is divided between a general part that refers to bio-fuels from cultivated plants, yeasts and bacteria and a second part dedicated to unicellular algae, in which their biological characteristics and the methods for genetic and molecular biological analysis are described. Finally, examples are given for the use of these methods for the production of different types of bio-fuels and other products with high added value.
Prerequisites and basic notions
students must possess the typical knowledge of the degree in Biotechnology or Biology in the field of cell biology, genetics and general and plant biochemistry
Program
The "BIOENERGY AND BIOFUELS" study course deals with issues of economic and social relevance: it aims to provide biotechnological solutions for the sustainable production of plant biomass and to produce, from this, energy sources capable of replacing fossil fuels helping to minimize the emission of CO2 into the atmosphere which contributes to the greenhouse effect and is believed to be the main cause of rapid climate change. The course therefore describes:
1) the historical trajectory of the development of biofuels from cultivated plants, describing the production methods of so-called first (e.g. bioethanol from sugar cane) and second generation (biogas from organic residues or energy crops, biodiesel from oilseeds) biofuels such as soybeans, rapeseed or palm fruit), underlining their limits, mainly to the competition related to the allocation of arable land between food and energy crops
2) Bio-technological innovations that allow, through the engineering of organisms and micro-organisms used in the transformation of biomass, to optimize the production of different types of bio-fuels both for the yield and for the characteristics of the synthesized molecules .
3) The characteristics of unicellular microalgae as a privileged alternative to higher plants as producers of biomass. In fact, microalgae are photosynthetic organisms capable of converting light energy into biomass rich in sugars and lipids with a higher efficiency than plants. Furthermore, numerous species of microalgae are able to grow in brackish water, wastewater and in cultivation systems set up in marginal soils, thus not interfering with food crops. Although the theoretical production of biomass for energy purposes by microalgae (third generation biofuels) is higher than what can be obtained with respect to plants with the same cultivation area used, the current yield is hampered by both physiological and engineering factors.
4) The limits in the efficiency of light energy conversion into metabolic energy: the high cell density of algal cultures, predation by opportunistic parasites, the level of triglycerides.
5) The state of the art regarding the biotechnological strategies available to create genetically engineered microalgae, categorized as fourth generation biofuels.
6) Students are educated on random mutagenesis and adaptive evolution approaches in the laboratory to develop phenotypes of interest and on the new frontiers offered by genome editing applicable in model and non-model algal species. Particular interest is directed to the manipulation of light collection systems, among which the reduction of the cellular content of chlorophyll is underlined. This strategy allows to improve the conversion efficiency of solar radiation into biomass avoiding the photoprotective dispersion of energy and maximizing the constitutive accumulation of triglycerides.
7) The course concludes with a cycle of laboratory experiences in which the students experience the challenges of using microalgae as a source for the low-cost production of biomass by analyzing some examples of strains genetically improved for high-density cultivation in non-sterile and able to tolerate high irradiances allowing, at the same time, a better penetration of light into the crop and therefore a more homogeneous photosynthetic performance.
Bibliography
Didactic methods
The course will take place through 40 hours of ex cathedra lessons in which the contents described in the program panel will be exposed. The last lessons will be interactive: students will be assigned recent scientific articles and will be asked to prepare a presentation. During the speech the other students and the teacher will intervene with questions and insights
Learning assessment procedures
The exam consists of 3 parts: the grade is the sum of the components
Evaluation criteria
1) Candidates answer the multiple choice questions and the open question. Each of the correct answers has a value of 0.6 points. The open question from 0 to 5 points. To access the oral presentation it is necessary to obtain a score of at least 14 points in the written exam. The result of the specific questions for genome editing (36-39) is considered only if correct.
2) The oral presentation of the article from the literature is worth up to 6 points the oral presentation focuses on one (or more) of the articles made available to those who have followed the course
3) presentation of some slides in which the candidate illustrates which, according to him, is the most interesting bio-technology strategy for future applications. This section of the exam is worth up to 5 points
Criteria for the composition of the final grade
1) Candidates answer the multiple choice questions and the open question. Each of the correct answers has a value of 0.6 points. The open question from 0 to 5 points. To access the oral presentation it is necessary to obtain a score of at least 14 points in the written exam. The result of the specific questions for genome editing (36-39) is considered only if correct.
2) The oral presentation of the article from the literature is worth up to 6 points the oral presentation focuses on one (or more) of the articles made available to those who have followed the course
3) presentation of some slides in which the candidate illustrates which, according to him, is the most interesting bio-technology strategy for future applications. This section of the exam is worth up to 5 points
Exam language
Italiano (English for foreign students) ------------------------ UL: LABORATORIO ------------------------
Career prospects
Module/Programme news
News for students
There you will find information, resources and services useful during your time at the University (Student’s exam record, your study plan on ESSE3, Distance Learning courses, university email account, office forms, administrative procedures, etc.). You can log into MyUnivr with your GIA login details: only in this way will you be able to receive notification of all the notices from your teachers and your secretariat via email and also via the Univr app.
Graduation
Deadlines and administrative fulfilments
For deadlines, administrative fulfilments and notices on graduation sessions, please refer to the Graduation Sessions - Science and Engineering service.
Need to activate a thesis internship
For thesis-related internships, it is not always necessary to activate an internship through the Internship Office. For further information, please consult the dedicated document, which can be found in the 'Documents' section of the Internships and work orientation - Science e Engineering service.
Final examination regulations
List of thesis proposals
theses proposals | Research area |
---|---|
Valutazione dell'applicazione di nanoparticelle biogeniche per il controllo del cancro batterico del kiwi | AGRICULTURE - AGRICULTURE |
Valutazione dell'applicazione di nanoparticelle biogeniche per il controllo del cancro batterico del kiwi | APPLICATIONS OF LIFE SCIENCES - APPLICATIONS OF LIFE SCIENCES |
Valorizzazione di scarti agroindustriali mediante fermentazione termofila per la produzione di acidi organici come precursori chimici di polimeri | Applied biotechnology (non-medical), bioreactors, applied microbiology - Applied biotechnology (non-medical), bioreactors, applied microbiology |
Valutazione dell'applicazione di nanoparticelle biogeniche per il controllo del cancro batterico del kiwi | Applied biotechnology (non-medical), bioreactors, applied microbiology - Applied biotechnology (non-medical), bioreactors, applied microbiology |
Immobilizzazione di enzimi d’interesse industriale su nanoparticelle biomimetiche magnetiche | Applied Life Sciences and Non-Medical Biotechnology: Applied plant and animal sciences; food sciences; forestry; industrial, environmental and non-medical biotechnologies, nanobiotechnology, bioengineering; synthetic and chemical biology; biomimetics; bioremediation - Biomimetics |
Immobilizzazione di enzimi d’interesse industriale su nanoparticelle biomimetiche magnetiche | Applied Life Sciences and Non-Medical Biotechnology: Applied plant and animal sciences; food sciences; forestry; industrial, environmental and non-medical biotechnologies, nanobiotechnology, bioengineering; synthetic and chemical biology; biomimetics; bioremediation - Non-medical biotechnology and genetic engineering (including transgenic organisms, recombinant proteins, biosensors, bioreactors, microbiology) |
Immobilizzazione di enzimi d’interesse industriale su nanoparticelle biomimetiche magnetiche | Chemical engineering, technical chemistry - Chemical engineering, technical chemistry |
Effetto delle condizioni operative applicate al processo di digestione anaerobica su produzione di biogas e stabilità del carbonio organico del digestato | Earth System Science: Physical geography, geology, geophysics, atmospheric sciences, oceanography, climatology, cryology, ecology, global environmental change, biogeochemical cycles, natural resources management - Biogeochemistry, biogeochemical cycles, environmental chemistry |
Influenza dalla variazione stagionale del feedstock sulla produzione di biogas e sulla stabilità del carbonio organico presente nel digestato prodotto | Earth System Science: Physical geography, geology, geophysics, atmospheric sciences, oceanography, climatology, cryology, ecology, global environmental change, biogeochemical cycles, natural resources management - Biogeochemistry, biogeochemical cycles, environmental chemistry |
Valorizzazione di scarti agroindustriali mediante fermentazione termofila per la produzione di acidi organici come precursori chimici di polimeri | Environmental biotechnology, bioremediation, biodegradation - Environmental biotechnology, bioremediation, biodegradation |
Bilanci di massa e di materia in digestori anaerobici alimentati con residui agricoli e zootecnici. | Products and Processes Engineering: Product design, process design and control, construction methods, civil engineering, energy processes, material engineering - Chemical engineering, technical chemistry |
Studio della composizione chimica e della stabilità termica di poliidrossialcanoati ottenuti da diverse matrici ambientali. | Products and Processes Engineering: Product design, process design and control, construction methods, civil engineering, energy processes, material engineering - Chemical engineering, technical chemistry |
Valorizzazione di scarti agroindustriali mediante fermentazione termofila per la produzione di acidi organici come precursori chimici di polimeri | Products and Processes Engineering: Product design, process design and control, construction methods, civil engineering, energy processes, material engineering - Chemical engineering, technical chemistry |
Immobilizzazione di enzimi d’interesse industriale su nanoparticelle biomimetiche magnetiche | Products and Processes Engineering: Product design, process design and control, construction methods, civil engineering, energy processes, material engineering - Materials engineering (metals, ceramics, polymers, composites, etc.) |
Valorizzazione di scarti agroindustriali mediante fermentazione termofila per la produzione di acidi organici come precursori chimici di polimeri | Products and Processes Engineering: Product design, process design and control, construction methods, civil engineering, energy processes, material engineering - Production technology, process engineering |
Studio delle proprietà di luminescenza di lantanidi in matrici proteiche | Synthetic Chemistry and Materials: Materials synthesis, structure-properties relations, functional and advanced materials, molecular architecture, organic chemistry - Colloid chemistry |
Multifunctional organic-inorganic hybrid nanomaterials for applications in Biotechnology and Green Chemistry | Synthetic Chemistry and Materials: Materials synthesis, structure-properties relations, functional and advanced materials, molecular architecture, organic chemistry - New materials: oxides, alloys, composite, organic-inorganic hybrid, nanoparticles |
Attendance modes and venues
As stated in the Didactic Regulations, there is no generalised obligation of attendance. Individual lecturers are, however, free to require a minimum number of hours of attendance for eligibilitỳ for the profit exam of the teaching they teach. In such cases, attendance of teaching activities is monitored in accordance with procedures communicated in advance to students.
Part-time enrolment is permitted. Find out more on the Part-time enrolment possibilities page.
The course's teaching activities take place in the Science and Engineering area, which is composed of the buildings of Ca‘ Vignal 1, Ca’ Vignal 2, Ca' Vignal 3 and Piramide, located in the Borgo Roma cluster, and Villa Lebrecht and Villa Eugenia located in the San Floriano di Valpolicella cluster.
Lectures are held in the classrooms of Ca‘ Vignal 1, Ca’ Vignal 2 and Ca' Vignal 3, while practical exercises take place in the teaching laboratories dedicated to the various activities.