分析化學 Analytical Chemistry 沈川洲 Chuan-Chou (River) SHEN; river@ccms.ntu.tw

1. 分析化學 Analytical Chemistry 沈川洲 Chuan-Chou (River) SHEN; river@ccms.ntu.edu.tw TA: 邱瀚毅, r91224204@ntu.edu.tw; 0912023915 Course description: This course is intended for sophomores in the Dept. of Geosciences. Juniors and seniors are also welcomed. It will approach quantitative analysis first from a classical point of view. Instructor will also review and expand upon the fundamental properties of some modern techniques, which are useful in geochemical analysis. This course emphasizes both theoretical and practical aspects of analytical techniques for geochemistry. Because laboratory experience is the essence of quantitative analysis, a course, “Analytical Chemistry Laboratory”, should be taken together with this course to learn the basis of good laboratory practice. After taking this class, students, with a body of geo-analytical knowledge, will be able to design an experimental procedure to solve real or hypothetical problems. They will also learn how to independently accomplish general chemistry in a geochemical lab.

2. Literature: Quantitative Chemical Analysis(6th ed., 2003) by Daniel C. Harris Fundamentals of Analytical Chemistryby Skoog and West Exploring Chemical Analysis(2nd ed., 2001) by Daniel C. Harris Statistics for Analytical Chemistryby Miller and Miller Credits: 2 (+1: experiment) Class hours:8:10-10:00 pm, Friday Grading:Homework, 30%; Midterm exam, 30%; Final exam, 30%; Class participation, 10%.

4. Syllabus: Sept Introduction, Units, tools, basic concepts. Oct Error, statistics and excel spreadsheets Calibration methods. Chemical equilibrium. Nov Basic concepts on titrations, Acid-base titration. Introduction to chromatography. Ion exchange chromatography. Nov 28Midterm exam. Dec Geochemical samples, sampling and preparation. Quality Assurance. Jan Analytical methods for geo-environmental samples. Electrochemistry. Jan 16Final exam.

6. Experiments: • Balance calibration; dollar statistics. • Calibration of volumetric labware. • Preparing standard acid and base. • Analysis of a mixture of carbonate and bicarbonate. • Titration of bases in household drain cleaners. • EDTA titration of Ca2+ and Mg2+ in natural water • Capacity of ion-exchange resins

10. Increased availability of toxic Al3+ to a pine tree in Germany near a coal-burning power plant built in 1929. The increase is probably an effect of man-made acidity in rainfall, which mobilizes Al3+ from minerals. • The growth of atmospheric CO2. CO2 comes from our burning of fossil fuel and destruction of forests. • The growth in world population. • How long will our planet remain habitable if we do not control our population and our impact on the environment?

14. Calibration Curves

15. 0-1 The Analytical Chemist’s Job Bates College in Maine, Professor Tom Wenzel Students: Denby and Scott Sampling Homogeneous: same throughout Heterogeneous: differs from region to region, Chocolate with nuts Sample Preparation Substances being measured caffeine and theobromine in this case are called analytes.

18. Chemical Analysis (classical or instrumental) Identifying what is in an unknown is called qualitative analysis. Identifying how much is present is quantitative analysis.

20. Calibration Curves

21. Interpreting the Results

22. Analytical results, data interpretation, application

23. General Steps in a Chemical Analysis • Formulating the question • Selecting analytical procedures • Sampling • Sample preparation • Analysis • Reporting and interpretation • Drawing conclusions