Chemical equilibriums in aqueous solution with calculation. Errors in analytical chemistry. Titrations and main instrumental analysis methods. Sensors and Biosensors. Analytical microscopy.
Course Content - Workshop - Last names M-Z
Chemical equilibriums in aqueous solution with calculation. Errors in analytical chemistry. Titrations and the main instrumental analytical methods. Sensors and Biosensors. Analytical microscopy.
Course Content - Lesson
Chemical equilibriums in aqueous solution with calculation. Errors in analytical chemistry. Titrations and the main instrumental analytical methods. Sensors and Biosensors. Analytical microscopy.
Knowledge acquired:
The course deals with the general basis of analytical chemistry in order to understand the mechanisms, the errors and the problems connected with the classical volumetric quantitative analysis. The principal instrumental methods (optical and electrochemical methods, mass spectrometry, separation techniques, chromatography, electrophoresis, field flow fractionation) are discussed. Sensor and biosensor-based methods are also described.
Acquisition of expertise in analytical chemistry. Ability to design and carry out an analytical procedure from the sampling step, the choice of the instrumental analysis, to the statistical evaluation of the analytical data.
Learning Objectives - Workshop - Last names M-Z
Knowledge acquired:
The course deals with the general basis of analytical chemistry in order to understand the mechanisms, the errors and the problems connected with the classical volumetric quantitative analysis. The principal instrumental methods (optical and electrochemical methods, mass spectrometry, separation techniques, chromatography, electrophoresis, field flow fractionation) are discussed. Sensor and biosensor-based methods are also described.
Acquisition of expertise in analytical chemistry. Ability to design and carry out an analytical procedure from the sampling step, the choice of the instrumental analysis, to the statistical evaluation of the analytical data.
Learning Objectives - Lesson
Knowledge acquired:
The course deals with the general basis of analytical chemistry in order to understand the mechanisms, the errors and the problems connected with the classical volumetric quantitative analysis. The principal instrumental methods (optical and electrochemical methods, mass spectrometry, separation techniques, chromatography, electrophoresis, field flow fractionation) are discussed. Sensor and biosensor-based methods are also described.
Acquisition of expertise in analytical chemistry. Ability to design and carry out an analytical procedure from the sampling step, the choice of the instrumental analysis, to the statistical evaluation of the analytical data.
Prerequisites - Workshop - Last names A-L
Courses to be used as requirements (required and/or recommended)
Courses required: ..............................................
Courses recommmended: General and Inorganic Chemistry and Organic Chemistry.........
Prerequisites - Workshop - Last names M-Z
Courses to be used as requirements (required and/or recommended)
Courses required: ..............................................
Courses recommmended: General and Inorganic Chemistry and Organic Chemistry.........
Prerequisites - Lesson
Courses to be used as requirements (required and/or recommended)
Courses required: ..............................................
Courses recommmended: General and Inorganic Chemistry and Organic Chemistry.........
Teaching Methods - Workshop - Last names A-L
Total hours for:
Lectures: 48
Laboratory/practice: 24
Teaching Methods - Workshop - Last names M-Z
Total hours for:
Lectures: 48
Laboratory/practice: 24
Teaching Methods - Lesson
Total hours for:
Lectures: 48
Laboratory/practice: 24
Type of Assessment - Workshop - Last names A-L
Oral and written examination
Type of Assessment - Workshop - Last names M-Z
Oral and written examination
Type of Assessment - Lesson
Oral and written examination
Course program - Workshop - Last names A-L
Introduction to analytical chemistry. Chemistry of aqueous solutions. Application of equilibrium calculation to complex systems. Errors in chemical analysis. Gravimetric analysis methods. Titrimetric analysis. Neutralization, precipitation, complex formation, redox titration methods. Eeletcroanalytical methods. Extraction equilibriums. Chromatographic analysis methods. TLC, HPLC, GC, electrophoresis, Field Flow Fractionation. Mass spectrometry. Optical methods. Sensor and Biosensor. Analytical microscopy with little introduction to microscopy Optics and Electronics.
Course program - Workshop - Last names M-Z
Introduction to analytical chemistry. Chemistry of aqueous solutions. Application of equilibrium calculation to complex systems. Errors in chemical analysis. Gravimetric analysis methods. Titrimetric analysis. Neutralization, precipitation, complex formation, redox titration methods. Eeletcroanalytical methods. Extraction equilibriums. Chromatographic analysis methods. TLC, HPLC, GC, electrophoresis, Field Flow Fractionation. Mass spectrometry. Optical methods. Sensor and Biosensor. Analytical microscopy with little introduction to microscopy Optics and Electronics.
Course program - Lesson
Introduction to analytical chemistry. Chemistry of aqueous solutions. Application of equilibrium calculation to complex systems. Errors in chemical analysis. Gravimetric analysis methods. Titrimetric analysis. Neutralization, precipitation, complex formation, redox titration methods. Eeletcroanalytical methods. Extraction equilibriums. Chromatographic analysis methods. TLC, HPLC, GC, electrophoresis, Field Flow Fractionation. Mass spectrometry. Optical methods. Sensor and Biosensor. Analytical microscopy with little introduction to microscopy Optics and Electronics.