Discusses the structure and function of the liver protein cytochrome P-450, an important catalyst for a variety of detoxification reactions. Diagnostic substracts for this heme-containing monooxygenase, synthetic modes of the active site, and oxidations with synthetic metalloporphyrins are the major topic areas considered. (JN)

Discusses model studies aimed at elucidating various ways in which molecular oxygen interacts with metalloproteins. The focus is on the chemistry of iron(II) porphyrins and their adducts with nitrogenous bases, carbon monoxide, and dioxygen, which are most relevant to the functional proteries of the heme proteins, hemoglobin, and myoglobin. (JN)

The topic of ionic radius is generally given scant treatment in modern textbooks. Therefore, this article reviews some historical work and illustrates some of the applications of ionic radii in the teaching of inorganic chemistry. (JN)

Most inorganic chemistry textbooks present the determination of spectroscopic terms obtained from a given electronic configuration by a method which requires explicitly writing down all microstates. A method is provided and discussed in which tabulating all possible microstates is not required. (JN)

Presents the view that the explanation of the Golden Penny Experiment found in popular chemistry textbooks is insufficient or incorrect in part. Reports a series of electrochemical measurements that lead to a logical explanation for this demonstration and to a simplified design that makes it safer. (DDR)

Summarizes and presents results of a national survey on undergraduate inorganic chemistry which asked faculty to describe the general layout of their undergraduate program and course content. Reveals both similarities in the structure of undergraduate inorganic chemistry programs across the country and diversity in content. (ASK)

Discusses the role of zinc in various enzymes concerned with hydration, hydrolysis, and redox reactions. The binding of zinc to protein residues, properties of noncatalytic zinc(II) and catalytic zinc, and the reactions catalyzed by zinc are among the topics considered. (JN)

The catechol dioxygenases are bacterial iron-containing enzymes that catalyze the oxidative cleavage of catechols. These enzymes serve as a component of nature's mechanisms for degrading aromatic compounds in the environment. The structure and mechanistic aspects of these enzymes are described. (JN)

Discusses how a metal ion is bound to a particular enzyme, focusing the blue copper centers found in a variety of organisms. Coordination geometry of the blue copper site, donor set, direct structural studies, and single-crystal spectroscopy are the major topic headings. (JN)

Seven recent inorganic chemistry textbooks are examined and compared with each other and with textbooks from the 1960s. Findings show several different and contrasting trends in the topics emphasized, allowing teachers to select a textbook most aligned with their course content or philosophy. (JN)

Virtual ChemLab project is an instructional laboratory involved in providing a practical experience by connecting the theory and laboratory practicals, teaching laboratory techniques and teaching the cognitive processes. This lab provides the students with the freedom to explore, repeat the procedures again, focuses on the underlying principles of…

A computational experiment is devised for advanced inorganic laboratory course that allows the students to explore the structure and bonding patterns of ethene and some heavier analogues. The HOMO-LUMO gaps, double bond dissociation energetics, and optimized geometries of ethene, disilene, and digermene are explored.

An experiment is conducted for the oxidation of iron in a gel using consumer chemicals, which is pertinent to the students' understanding of redox chemistry and of the relative oxidation potentials of various metals. The experiment can be carried out with consumer chemicals that might be purchased at a supermarket and commonly found in the home.

Draws a distinction between the terms "heat and work" and "energy" in terms of the teaching of thermodynamics. Gives examples using enthalpy and constant pressure processes, free energy and spontaneity, and free energy and available mechanical energy. Concludes that there is no thermodynamic role for the terms "heat"…

Provides an overview on biological electron-transfer reactions, summarizing what is known about how distance, spatial organization, medium, and other factors affect electron transfer. Experimental approaches, including studies of bimolecular electron transfer reactions (electrostatic effects and precursor complexes), are considered. (JN)