M.S. degree
A minimum of 30 semester hours of graduate credit is required for this degree program, of which no less than 22 hours will be earned in course work. The program of study for the master's degree will normally include up to 15 hours in the student's major area of study, 6 to 12 hours in related areas, and one hour of graduate seminar. At least two semester hours of credit must be earned at the 700 level or higher in each of three of the following areas of study: analytical, inorganic, organic, and physical chemistry. A master's thesis that is based on 6 to 8 semester hours of original research must also be defended before one's supervisory committee.
General Chemistry Courses
Undergraduate and graduate credit in minor field
CHM 599. Undergraduate research. (1, 2, 3) I, II, S. Analytical, inorganic, organic, or physical chemistry. A final, formal written report is required.
Undergraduate and graduate credit
Unless otherwise stated, all chemistry courses numbers 600 or above require the following as minimum prerequisites:
- CHM 550 Organic Chemistry II;
- CHM 532 Organic Chemistry Laboratory;
- CHM 595 Physical Chemistry II;
- and CHM 598 Physical Chemistry II Laboratory.
CHM 600. Scientific Glassblowing. (1) II. The basic techniques of bending, sealing, and blowing glass used to fabricate scientific glassware. Three hours of laboratory including one lecture demonstration a week. Pr.: Senior or graduate standing inphysical sciences.
CHM 601. Safe Chemical Laboratory Practices. (1) I. A general safety course for persons working or teaching in a chemical laboratory. One hour of lecture per week. Pr.: CHM 371 and 350 or equivalents.
CHM 700. Practicum in Teaching Chemistry. (1) I. Principles and methods of instruction in laboratories and recitation classes in chemistry, including one semester of supervised experience as an instructor in a chemical laboratory. This is a required course of all teaching assistants in the Department of Chemistry. May be taken only once for credit. Pr.: Senior standing in chemistry.
CHM 799. Problems in Chemistry. (Var.) I, II. S. Problems may include classroom or laboratory work. Not for thesis research. Pr.: Consent of instructor.
Graduate credit
CHM 899. Research in Chemistry. (Var.) I, II, S. Research in analytical chemistry, inorganic chemistry, organic chemistry, and physical chemistry for the M.S. degree.
CHM 999. Research in Chemistry. (Var.) I, II, S. Research in analytical chemistry, inorganic chemistry, organic chemistry, and physical chemistry for the Ph.D. degree.
Analytical Chemistry Courses
Undergraduate and graduate credit in minor
CHM 545. Chemical Separations. (2) II. Principles of modern separation techniques. One hour. lec. and three hours lab a week. Pr.: CHM 250 or 371, or both CHM 532 and CHM 550.
CHM 566. Instrumental Methods of Analysis. (3) I. Introduction to theory and practice of electrochemical methods, molecular and atomic spectroscopy, surface science, mass spectrometry, separation methods, and electronics in analytical chemistry. Three hours lec. a week. Pr.: CHM 550, PHYS 114 or 214, and MATH 221.
Graduate credit
CHM 901. Graduate Seminar in Analytical Chemistry. (0-1) I, II, S.
CHM 920. Analytical Separations. (3) II. The theory, instrumentation, and application of classical and modern separation techniques are covered in this lecture course. Pr.: CHM 566 and CHM 595.
CHM 937. Applications of Surface Science to Chemistry. (3) II, in even years. Chemical bonding in the solid state. Surface science and related techniques as applied to chemical problems. Special topics including data analysis and corrosion studies.
CHM 940. Chemical Microscopy. (3) II, in even years. The theory, instrumentation, and application of modern microscopic methods are covered in this lecture course. Emphasis is given to the study of chemically-important phenomena in material systems.
CHM 944. Electroanalytical Chemistry. (2-3) II, in odd years. Theory and applications of electrochemical methods; chronoamperometry, chronopotentiometry, cyclic voltammetry, coulometry, polarography, potentiometry, and instrumentation.
CHM 947. Applied Molecular Spectroscopy. (3) II, in odd-numbered years. Experimental, and theoretical methods associated with ultraviolet and visible absorption, fluorescence, Raman scattering, and nonlinear optical spectroscopies. Pr.: CHM 854.
Inorganic Chemistry Courses
Undergraduate and graduate credit
CHM 650. History of Chemistry. (2) II, in even years. Traces the beginnings of chemistry from 3500 B.C. to 1920 A.D. Early metallurgy, Greek thought about atoms, alchemy, atomic theory, discovery of gases, definition of elements, chemical bonds, organic, inorganic, and physical chemistry. Pr.: CHM 585.
CHM 657. Inorganic Techniques. (1-2) II. The preparation, characterization, and study of transition metal, main group, and organometallic compounds using techniques commonly encountered in industrial and academic research. Three to six hours lab a week. Pr.: CHM 585
CHM 711. Inorganic Chemistry I. (3) I. Atomic and molecular structure, bonding concepts used in the practice of inorganic chemistry. Applications of symmetry and group theory to structure, bonding, and spectra. Three hours lec. a week. Pr.: CHM 550, 595.
CHM 712. Inorganic Chemistry II. (3) II. Structure, reactivity, and mechanistic aspects of main group and transition metal complexes. Organometallic reactions, catalysis, and bioinorganic chemistry. Three hours lec. a week. Pr.: CHM 550, 595.
Graduate credit
CHM 800. Chemistry in Outer Space and in the Laboratory. (2) II, in odd years. The generation of reactive atoms and molecules in outer space and in the laboratory is covered, as well as their chemical reactions and spectroscopy. Extreme conditions of high and low temperatures, synthesis using atoms, nanoscale particles of inorganic materials, and matrix isolation are discussed. Pr.: CHM 712.
CHM 902. Graduate Seminar in Inorganic Chemistry. (0-1) I, II, S.
CHM 929. Physical Methods in Inorganic Chemistry. (3) II. Theory and application of infrared, Raman, visible, ultraviolet, NMR, ESR, NQR, Mossbauer, and mass spectrometry to inorganic chemistry. Three hours lec. a week. Pr.: CHM 711.
CHM 930. Homogeneous Catalysis. (2) II, in even years. The study of industrially important and synthetically useful catalysis of organic reactions by soluble metal complexes. Two hours lec. a week. Pr.: CHM 712 or consent of instructor.
CHM 935. Selected Topics in Inorganic Chemistry. (1-3) I, II. A lecture course in inorganic chemistry in areas of specialization of the faculty, with emphasis on current developments. Specific topics will be changed from semester to semester, so a student may take the course for credit more than once. Pr.: Consent of instructor.Materials Chemistry Courses
Graduate credit
CHM 820. Materials Chemistry. (3) II. Concepts of materials chemistry developed from an understanding of the chemical composition and structure of materials, and their relationship to the properties of matter. Students will be introduced to the structures and composition of materials and the diverse range of materials, including metals, metal clusters, semiconductors, nanomaterials, supramolecular materials, sol-gel materials, liquid crystals, glasses, polymers and composites. Pr.: Consent of instructor.
Organic Chemistry Courses
CHM 531. Organic Chemistry I. (3) I, II. Topics to be covered include fundamental concepts in organic chemistry such as hybridization of molecular orbitals, structure and bonding, acids and bases, kinetics and thermodynamics, stereochemistry and chirality, and conformational analysis. The basic knowledge will be used to study the syntheses, reactions, and mechanisms of functional groups such as alkanes, haloalkanes, and alkenes. Structural determination using infrared spectroscopy and nuclear magnetic resonance will also be included. Three hours of lec. a week. Pr.: CHM 230 or 250.
CHM 532. Organic Chemistry Laboratory. (2) I, II. One five-hour lab and one hour of lec. a week. Pr.: CHM 550 or conc. enrollment.
CHM 550. Organic Chemistry II. (3) I, II. A continuation of Organic Chemistry I (CHM 531). CHM 550 represents the second semester of a two-semester survey of organic chemistry. Topics to be discussed include syntheses, reactions, and mechanism of alkynes, aldehydes and ketones, carboxylic acids and their derivatives, amines, benzene and its derivatives, organometallic chemistry, conjugated unsaturated systems and pericyclic reactions, polymers, carbohydrates, lipids, amino acids, proteins, and nucleic acids. Structural identification will be studied using various current spectroscopic methods. Three hours lec. a week. Pr.: CHM 531.
CHM 551. Advanced Organic Laboratory. (2) I, II. One five-hour lab and one hour of lec. a week. Pr.: CHM 550 and 532.
Undergraduate and graduate credit
CHM 752. Advanced Organic Chemistry. (3) I. Advanced study of organic compounds and fundamental types of reactions. Three hours lec. a week. Pr.: CHM 550 and 595.
Graduate credit
CHM 860. Synthetic Organic Chemistry. (4) II. Conditions, scope, and applications of reactions useful in synthetic organic chemistry. Four hours lec. a week.
CHM 862. Organic Spectroscopy. (3) I. The principles of IR, UV-VIS, mass, and NMR spectroscopies applied to the problem of structure determination. Three hours lec. a week.
CHM 903. Graduate Seminar in Organic Chemistry. (0-1) I, II, S.
CHM 965. Physical Organic Chemistry. (3) II. Principles of orbital symmetry, thermochemistry, kinetics, and other topics applied to the understanding of reaction mechanisms. Three hours lec. a week.
CHM 970. Selected Topics in Organic Chemistry. (1-3) On sufficient demand. A lecture course in organic chemistry in areas of specialization of the faculty, with emphasis on current developments. Specific topics will be changed from semester to semester, so a student may take the course for credit more than once.
Physical Chemistry Courses
Undergraduate and graduate credit in minor field
CHM 500. General Physical Chemistry. (3) II. Elementary principles of physical chemistry. Three hours lec. a week. Pr,: CHM 350 or 531 and MATH 211 or 221, and PHYS 114 or equivalent.
CHM 585. Physical Chemistry I. (3) I. Elementary chemical thermodynamics and kinetic theory of gases. Three hours lec. a week. Pr.: CHM 350 or 531, MATH 222, and PHYS 214.
CHM 595. Physical Chemistry II. (3) II. Elementary quantum chemistry, spectroscopy, statistical thermodynamics, and chemical kinetics. Three hours lec. a week. Pr.: CHM 350 or 531, MATH 222 and PHYS 214.
CHM 596. Physical Methods Laboratory. (1-2) II. Experiments that relate to physical and instrumental methods. Three to six hours lab a week. Pr.: MATH 221, PHYS 114 or PHYS 214.
Graduate credit
CHM 801. Chemical Thermodynamics. (3) II, in alternate years. The laws, principles, and methods of thermodynamics and their applications to chemical systems. Statistical-molecular approach emphasized. Three hours lec. a week.
CHM 854. Theoretical Chemistry I. (3) I. Introduction to quantum mechanics and atomic and molecular spectroscopy. Three hours lec. a week.
CHM 856. Chemical Kinetics. (3) I, in alternate years. Survey of experimental and theoretical aspects of dynamics of chemical reactions. Three hours lec. a week. Pr.: CHM 801 or CHM 854.
CHM 904. Graduate Seminar in Physical Chemistry. (0-1) I, II, S. Presentation of topics from literature in physical chemistry.
CHM 950. Chemical Statistical Mechanics. (3) I, in alternate years. Application of classical and quantum statistical mechanics to chemical phenomena. Three hours lec. a week. Pr.: CHM 801, 854.
CHM 954. Theoretical Chemistry II. (3) II. Quantum theory of atomic and molecular structure. Three hours lec. a week. Pr.: CHM 854.
CHM 955. Selected Topics in Physical Chemistry. (1-3) On sufficient demand. A lecture course in physical chemistry in areas of specialization of the faculty, with emphasis on current developments. Specific topics will be changed from semester to semester, so a student may take the course for credit more than once. Pr.: CHM 854.