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Instrumental Analysis

Code: Q4000     Acronym: Q4000

Keywords
Classification Keyword
OFICIAL Chemistry

Instance: 2023/2024 - 1S Ícone do Moodle

Active? Yes
Responsible unit: Department of Chemistry and Biochemistry
Course/CS Responsible: Master in Biochemistry

Cycles of Study/Courses

Acronym No. of Students Study Plan Curricular Years Credits UCN Credits ECTS Contact hours Total Time
M:BQ 33 Plano de Estudos do MBIOQ_2013-2014 1 - 6 56 162

Teaching language

Suitable for English-speaking students

Objectives

The major objective of this curricular unit is to provide a thorough background in the physical and chemical principles that are particularly important to chromatographic, spectroscopic, and  electrochemical techniques. The second aim is to introduce a wide range of techniques that are useful in modern analytical chemistry (chromatography, UV/Vis spectroscopy, photoluminescence, circular dichroism, potentiometry, and voltammetry). Additionally, the student will develop the skills necessary to apply statistical tools that enable them to interpret analytical data. Finally, the last aim is to provide the laboratory skills that will give students confidence in their ability to obtain high quality analytical data.

 

Learning outcomes and competences

The course contents are consistent with the learning objectives, in the extent as knowledge of the composition and mode of operation of the different techniques, which govern the appearance of different analytical methods according with the specificity of chemical compounds, is provided for all topics the program

On the other hand, the knowledge of the analytical methods available to carry out chemical analysis allows students to identify the differences and similarities of these methods, as well the strategies adopted to conceal the physical and chemical interference of each. In laboratory classes will be developed technical skills fundamental to the implementation of some of the instrumental methods studied. Through the implementation of the Video Class Project, the student will develop organisational and collaborative skills.

 

Working method

Presencial

Pre-requirements (prior knowledge) and co-requirements (common knowledge)

It is assumed that the general basic principles of Chemistry have already been transmitted in previous curricular units. The student must have already followed a basic training in Laboratory Chemistry, through practical work covering fundamental operations.

Program

1 Chromatography of biomolecules

1.1. Basic principles of chromatography
1.2. High performance liquid chromatography (HPLC)
1.3. Ion exchange and size exclusion chromatography
1.4. Hydrophobic interaction and affinity chromatography
1.5. Reversed phase chromatography

1.6 Applications



2. Spectroscopic techniques

2.1 UV/Vis Spectroscopy
2.2 Photoluminescence spectroscopy: (i) fluorescence and (ii) phosphorescence

2.3 Circular dichroism spectroscopy

2.4 Applications

 


3. Electrochemical methods of analysis

3.1. Potentiometry

3.2. Chronoamperometry and chronocoulometry

3.3. Cyclic voltammetry and pulse voltammetric techniques

3.4. Applications


4.  Application of statistical tools for the processing of analytical data

 

Mandatory literature

Skoog Douglas A.; Principles of instrumental analysis. ISBN: 0-03-002078-6
Harris Daniel C.; Quantitative chemical analysis. ISBN: 0-7167-1916-9
Miller James N. 1943-; Statistics and chemometrics for analytical chemistry. ISBN: 0-130-22888-5

Complementary Bibliography

Mikkelsen Susan R.; Bioanalytical chemistry. ISBN: 0-471-54447-7
Kellner R. 340; Analytical chemistry. ISBN: 3-527-30590-4

Teaching methods and learning activities

The teaching of instrumental analysis takes place through theoretical and practical classes and laboratory sessions. The theoretical and practical classes consist in detailed exposition of the content of the program, supported by the discussion of cases study, as well as by the videochallenges performed by each individual student.

In the theorical-practical classes, it is committed to exposing the different statistical tools for the processing of analytical data, followed by the resolution of exercises applied to each of the cases. A part of the class will be dedicated to the development of the Video Class Project.

In the laboratory sessions, the students carry out experimental works illustrative of some of the analytical techiques developed in theoretical classes, whose results and main conclusions will be  discussed orally and presented in a written report.

keywords

Physical sciences > Chemistry > Instrumental analysis
Physical sciences > Chemistry > Analytical chemistry > Spectrochemistry
Physical sciences > Chemistry > Analytical chemistry

Evaluation Type

Distributed evaluation with final exam

Assessment Components

designation Weight (%)
Exame 50,00
Participação presencial 10,00
Trabalho laboratorial 15,00
Trabalho prático ou de projeto 25,00
Total: 100,00

Amount of time allocated to each course unit

designation Time (hours)
Elaboração de relatório/dissertação/tese 9,00
Estudo autónomo 75,00
Frequência das aulas 56,00
Trabalho laboratorial 9,00
Elaboração de projeto 13,00
Total: 162,00

Eligibility for exams

Whoever misses more than 25% of the number of classes planned (theoretical-practical and practical) will not obtain frequency.

Calculation formula of final grade

Final Grade: (0.25 x Video class project) + (0.15 x Reports) + (0.10 x individual participation) + (0.50 x Final Exam)

To obtain approval the student will have to cumulatively meet the two conditions:

i) Final Exam ≥ 9,0 val (out of 20)
ii) Final Grade ≥ 9,5 val (out of 20)

In case of condition i) is not satisfied, the student may request an oral examination, right after the appeal exam.



Internship work/project

The "Video Class Project" will be developed in group and will consist in the production of a video about one of the topics taught. The assessment will take into account the following criteria: scientific rigor, organization/clarity, creativity, critical spirit and collaborative capacity.

Classification improvement

The student can only improve the classification to the component of Final Exam, in the appeal exam period. The distributed evaluation component cannot be improved.

Observations

The student must have already followed a basic formation in Chemistry as well as in Laboratory Chemistry
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