| CODE | 65119 |
|---|---|
| ACADEMIC YEAR | 2016/2017 |
| CREDITS | 8 credits during the 2nd year of 8757 Chemistry and Chemical Technologies (L-27) GENOVA |
| SCIENTIFIC DISCIPLINARY SECTOR | CHIM/01 |
| TEACHING LOCATION | GENOVA (Chemistry and Chemical Technologies) |
| SEMESTER | Annual |
| PREREQUISITES |
Prerequisites
You can take the exam for this unit if you passed the following exam(s):
|
| MODULES | This unit is a module of: |
The course is aimed at introducing the students to the modern analytical chemistry, providing basic theoretical and operational information on sample preparation and instrumental analysis by spectroscopy, electrochemistry, chromatography and mass spectrometry techniques.
Basic theoretical knowledge of the main spectroscopic and electrochemical techniques . Practical knowledge of sample preparation and analysis by spectroscopic and electrochemical techniques . Develop the ability to choose and carry out an analytical method, to perform experiments in groups and to report the results.
Frontal lectures and laboratory work. Slides and further educational material available on aulaweb.
General concepts. Signal and noise. Detection and quantification limits. Calibration (external calibration, standard addition method, internal standard method). Sensitivity and selectivity. Interference in instrumental measurements. Data processing from the acquisition of the analytical signal to the final results. Calculation of the figures of merit. Criteria for choosing a suitable analytical method.
Spectroscopic methods. The electromagnetic radiation. Molecular and atomic absorption. Molecular and atomic emission. Absorption and emission spectra. The Lambert-Beer law. UV-VIS molecular absorption spectroscopy: principle, instrumentation, analytical performances and applications. Molecular fluorescence spectroscopy. Flame atomic absorption spectrometry: principle, instrumentation, interferences, analytical features and applications. Plasma source atomic emission spectrometry: principle, instrumentation, interferences, analytical features and applications. Main aspects of ETAAS and ICP-MS techniques.
Electroanalytical methods. Introduction to electroanalytical methods and their classification. Potentiometry: reference electrodes, metal indicator electrodes, membrane electrode. Direct potentiometric measurements. Potentiometric titrations. Voltammetric methods: notes on the electrode-solution interface processes. Instrumentation for voltammetric measurements. Polarography. Anodic stripping voltammetry.
Laboratory work. Determination of manganese in steel by UV-VIS spectrophotometry; determination of acetylsalicylic acid in an Aspirin tablet by UV-VIS spectrophotometry; copper determination in aqueous solution by FAAS; multielemental analysis of a sediment sample by ICP-AES; potentiometric titration of a strong acid with a strong base; potentiometric titration of a mixture of iodides and chlorides; determination of vitamin C in a fruit juice by differential pulse polarography; determination of Zn, Cu, Pb and Cd in tap water by anodic stripping voltammetry.
Skoog / West / Holler / Crouch, Fundamentals of Analytical Chemistry, Cengage Learning 2016
Skoog / Holler / Crouch, Principles of Instrumental Analysis, Thomson Brooks/Cole, 2007
Office hours: Always, by appointment.
MARCO GROTTI (President)
MARINA DI CARRO (President)
FRANCISCO ARDINI
MARIA CARMELA IANNI
Frontal lectures and laboratory work. Slides and further educational material available on aulaweb.
26th September 2016, according to timetable availbale on www.ctc.unige.it
Questionnaires and reports on laboratory work, performed during the course. Written test and oral examination.
Evaluation is based on questionnaires and individual reports relating to laboratory experiments, written test and oral examination. In particular, the laboratory score is calculated from the sum of the votes of individual experiences, obtained as follows: (a) participation to a preparatory quiz before each experience: 2 points for each quiz passed. Each quiz consists of 10 multiple-choice questions and it is passed when all answers are correct. Attempts are unlimited; (b) preparation of a short report for each experience containing data processing and the analytical results: rating from -1 to +1 for each report (-1: not correct; 0: partially correct; + 1: correct), taking into account the correctness of data processing, presentation and the of the accuracy of the results. The written test lasts 1.5 hours and it is composed by four exercises, aimed at assessing the individual skills to process analytical data, calculate the figures of merit of an analytical procedure, and propose a method for a given analytical problem. At each exercise a score is assigned according to its difficulty. A minimum score of 18/30 is required to access the oral test. The oral examination, performed by two professors and about 40-min long, is aimed to assess the knowledge of the theoretical content of the course. During the examination, the commission evaluates if the educational objectives of the course have been achieved. If not, the student is asked to study more thoroughly and/or take benefit from further explanations by teachers. The final grade is obtained from the weighted average of the laboratory vote and the written examination and oral assessments. The relative weight of the three assessments takes into account the number of credits of each part of the course on which assessments are based (25% laboratory; 25% written exam 50% oral). Rules on the written test: (a) the score is valid for three consecutive exam sessions; (b) in the case of double failure of the oral exam, the written test must be repeated; (c) the delivering of a new written test automatically cancels the previous score.
| Date | Time | Location | Type | Notes |
|---|---|---|---|---|
| 20/04/2017 | 09:30 | GENOVA | Orale | |
| 26/06/2017 | 09:00 | GENOVA | Scritto | |
| 03/07/2017 | 09:30 | GENOVA | Orale | |
| 17/07/2017 | 09:00 | GENOVA | Scritto | |
| 24/07/2017 | 09:30 | GENOVA | Orale | |
| 04/09/2017 | 09:00 | GENOVA | Scritto | |
| 11/09/2017 | 09:30 | GENOVA | Orale | |
| 25/09/2017 | 14:00 | GENOVA | Scritto | |
| 28/09/2017 | 15:00 | GENOVA | Orale |
Prerequisites: Chimica Analitica 1
Mandatory attendance: laboratory work and related explanatory lessons