This course will discuss structure, bonding, and properties of transition metal-containing molecules and inorganic solids. Students will examine structure and bonding in transition metal complexes through molecular orbital and ligand field theories, with an emphasis on the magnetic, spectroscopic, and thermodynamic properties of transition metal complexes. The class will also examine reactions of transition metal complexes, including the unique chemistry of organometallic compounds. The laboratory experiments complement lecture material and include an independent project.

The theory of quantum mechanics is developed and applied to spectroscopic experiments. Topics include the basic principles of quantum mechanics; the structure of atoms, molecules, and solids; and the interpretation of infrared, visible, fluorescence, and NMR spectra.  Appropriate laboratory work will be arranged. Three hours of class and four hours of laboratory per week.

Requisite: CHEM 161, MATH 121, PHYS 116 or 123.  Limited to 24 students. Fall semester. Professors Leung and Marshall.

(Offered as CHEM 330 and BIOL 330.) What are the molecular underpinnings of processes central to life?  We will explore the chemical and structural properties of biological molecules and learn the logic used by the cell to build complex structures from a few basic raw materials. Some of these complex structures have evolved to catalyze chemical reactions with enormous degree of selectivity and specificity, and we seek to discover these enzymatic strategies.

A full course. 

Admission with consent of the instructor. Fall and spring semesters. The Department.