CHIM9246-2

Duration

18h Th, 36h Pr, 4h SEM

Number of credits

	Master in bioengineering : chemistry and bio-industries (120 ECTS)	6 crédits

Lecturer

Giorgia Purcaro

Language(s) of instruction

English language

Organisation and examination

Teaching in the first semester, review in January

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

LECTURES (Hybrid course): in English
- Electroanalytical chemistry : voltammetry, potentiometry and conductimetry.
- Atomic emission spectrometry (flame). Atomic absorption spectrometry (principles, technical description and applications). Cases analysis, Food and agri-environmental applications.
- Theoretical aspects of separation techniques in analytical chemistry. Basic principle of sample preparation (distillation - Liquid/liquid extraction, SPE, SPME) - Basic principles of the separation by column chromatography - Instrumentation and applications of gas chromatography and of HPLC . Case studies.
SEMINARS : Introduction to Near Infra-red spectrometry(NIR) and Plasma atomic emission spectrometry (ICP-AES).
LECTURES (Hybrid course): in English ( see also synopsis LANG2954-1) Introduction to ICP-MS ( 2h ) Group work ( 2 students): bibliographic research on the ICP-MS analysis of one element (analysis, application and comparison with other analytical techniques) Final presentation (3 pages) on the methodology.
Practical works :
LABORATORY EXERCISES in quantitative electrochemical analysis, Atomic emission and absorption spectrometry and chromatography ( GLC and HPLC).

Learning outcomes of the learning unit

To provide the student with an introduction to the principles of instrumental analysis (electrochemistry, molecular and atomic spectrometry) with special attention to their strengths and performances. After completing the course the student is expected to - demonstrate a good knowledge of the principles of qualitative and quantitative electrochemical spectrophotometric (atomic) and chromatographic methods of analysis; - develop a practical know-how in electrochemistry, spectrophotometry, GLC and HPLC; - evaluate the experimental data; - understand the theoretical and practical aspects of near infrared spectrometry and ICP-MS
The course focuses on classical and modern techniques to separate analytes in analytical chemistry. After completing the course, the student is expected to be able to :- Describe the separation techniques which have been seen during the course.- Argue the choice of the best technique to separate various analytes from different complex matrixes.- Understand the theoretical principles of separation for each technique seen during the course.- Discuss about case studies including the theoretical aspects of the course.

Prerequisite knowledge and skills

CHIM9242-4 - Fundamentals of quantitative analytical chemistry
CHIM9238-3 - Analytical chemistry
CHIM9255-3 - Organic chemistry
CHIM9239 - Biological chemistry
BIOL2019-1 - Theoretical and physical chemistry applied to structural analysis of biomolecules

Planned learning activities and teaching methods

Face-to-face lectures and laboratory exercices, personal work
It is mandatory to attend all seminars and laboratory exercises.

Mode of delivery (face-to-face ; distance-learning)

Lectures : 23h Laboratory work : 36h Seminars : 4h
Note: the hours do not correspond to the pedagogic commitment due to a change in the teacher. Course need to be adapted.

Assessment methods and criteria

Oral examination (60%)- Practical works : laboratory (35%) - Individual work in ICP-MS (5%).

Work placement(s)

No training

Organizational remarks

Contacts

Giorgia Purcaro (Prof.) +32 81 62 22 20, gpurcaro@uliege.be
Sophie Vancraenenbroeck (1ère assistante)+32 81 62 22 23, sophie.vancraenenbroeck@ulg.ac.be
Steven Mascrez (Assistant) +81 62 22 21, steven.mascrez@uliege.be

Chemical analysis : instrumental techniques