ANALYTICAL METHODS AND APPLICATIONS WITH LABORATORY - 2
- Academic year
- 2022/2023 Syllabus of previous years
- Official course title
- ANALYTICAL METHODS AND APPLICATIONS WITH LABORATORY - 2
- Course code
- CM0580 (AF:380107 AR:198980)
- Modality
- On campus classes
- ECTS credits
- 6 out of 12 of ANALYTICAL METHODS AND APPLICATIONS WITH LABORATORY
- Degree level
- Master's Degree Programme (DM270)
- Educational sector code
- CHIM/01
- Period
- 2nd Semester
- Course year
- 1
- Where
- VENEZIA
- Moodle
- Go to Moodle page
Contribution of the course to the overall degree programme goals
The primary objective of module 2 is to guide the student to the understanding and use of electrochemical methods for the study and prevention of corrosive phenomena and as analytical techniques to investigate cultural heritage artifacts, even when used in the field of sensors
Expected learning outcomes
i. know the relationship between the redox behaviour of materials used during the production of cultural artefacts and electrochemical methods for their analysis.
ii. Know the electrochemical principles behind corrosive processes.
iii. Understand the use of chromatographic and mass spectrometric instrumental methods during analysis and materials used in producing cultural materials.
2. Capacity to apply knowledge and comprehension
i. understand the specificity and role of analytical chemistry methods (electrochemical, chromatographic and mass spectrometric) for diagnosis and conservation of cultural heritage.
ii. Know how to apply the concepts learnt to understand which method is most useful in the prevention and restoration of a metallic object that has undergone corrosive degradation.
3) Judgement skills.
i) Know how to comparatively evaluate the effectiveness of different investigative strategies and combine the information obtained from electrochemical, chromatographic and mass spectrometric instrumentation.
ii) Develop a critical capacity to evaluate the performance of analytical methods when studying and preventing the degradation of cultural heritage.
4. Communication skills
i) Learn to correctly use the terminology and the language used in the fields of electrochemistry and corrosion.
ii) Improve written communication skills by presenting a full report on the laboratory practical experiences.
5. Learning skills
i) the ability to acquire the basic elements of the topics taught by the teacher in class and through the laboratory experiences, and completing the learning process through the consultation of bibliographic and online sources.
Pre-requirements
Contents
Corrosion and passivation of metals and alloys. Protection techniques suitable for historical-artistic artifacts. Protective films, corrosion inhibitors.
Electrochemical analytical methods: potentiometry and voltammetryElectrochemical analysis of pigments, metals and alloys
Electrochemical sensors for cultural heritage
Laboratory experience
Electrochemical characterization and electrochromic properties of pigments. Galvanic and electrolytic cleaning of corroded coins. Evaluation of the use of corrosion inhibitors of copper and its alloys.
Referral texts
Skoog, West, Holler, Crouch: Fundamentals of Analytical Chemistry
Harris: Quantitative Chemical Analysis
Scientific paper indicated in the slides
Assessment methods
The written exam is divided into two parts, to evaluate learning of the two modules. It consists of a series of questions which the student must answer, demonstrating knowledge and know how by explaining the topics covered by the course.
Language usage and the ability to identify and critically evaluate analytical techniques and their application to cultural heritage will be evaluated.
Teaching methods
Teaching is organized in lectures and laboratory exercises. The learning of the theoretical principles underlying modern electrochemical and instrumental analytical chemistry techniques is integrated with laboratory experiences where the techniques discussed in class are applied.
The teaching material used will be available on the "Moodle" platform of the University from where it can be downloaded.
Teaching language
Further information
English
Sustainability
Attention is paid to the benefits in terms of sustainability that the use of electrochemical methods allow by preventing corrosion and preserving highly valuable artefacts using techniques with a low environmental impact. This reduces the massive use of chemicals.
It is also underlined how the use of advanced analytical methods allows the analysis to be carried out while significantly reducing the quantities of both sample and reagents, with positive reflections on sustainability especially with regards to issues related to the production and disposal of chemicals for analytical use.