Inorganic Chemistry

Submitted by Caroline Saouma / Virginia Tech on Sun, 06/09/2019 - 14:52
Description

From syllabus:

Advanced Inorganic Chemistry

Submitted by Weiwei Xie / Louisiana State University on Sun, 06/09/2019 - 12:11
Description

Foundations: Atomic Structure; Molecular Structure; the Structures of Solids; Group Theory

The Elements and their Compounds: Main Group elements; d-Block Elements; f-Block Elements

Physical Techniques in Inorganic Chemistry: Diffraction Methods; Other Methods

Frontiers: Defects and Ion Transport; Metal Oxides, Nitrides and Fluorides; Chalcogenides, Intercalation Compounds and Metal-rich Phases; Framework Structures; Hydrides and Hydrogen-storage Materials; Semiconductor Chemistry; Molecular Materials and Fullerides.

 

1FLO: PCET and Pourbaix

Submitted by Anne Bentley / Lewis & Clark College on Sun, 06/09/2019 - 12:10
Description

This set of questions is based on a single figure from Rountree et al. Inorg. Chem. 2019, 58, 6647. In this article (“Decoding Proton-Coupled Electron Transfer with Potential-pKa Diagrams”), Jillian Dempsey’s group from the University of North Carolina examined the mechanism by which a nickel-containing catalyst brings about the reduction of H+ to form H2 in non-aqueous solvent.

Inorganic Chemistry

Submitted by Craig M. Davis / Xavier University on Sun, 06/09/2019 - 09:09
Description

Modern theories of bonding and structure, spectroscopy, redox chemistry, and reaction mechanisms. Coordination compounds, organometallic clusters, and catalysis.

Inorganic Chemistry I

Submitted by Todsapon T. / University of Evansville on Sun, 06/09/2019 - 08:54
Description

Surveys classical and contemporary approaches to the study of coordination compounds, solid-state chemistry and the chemistry of elements based on groups in the periodic table.

VIPEr Fellows 2019 Workshop Favorites

Submitted by Barbara Reisner / James Madison University on Sat, 06/08/2019 - 16:41

During our first fellows workshop, the first cohort of VIPEr fellows pulled together learning objects that they've used and liked or want to try the next time they teach their inorganic courses.

Inorganic Chemistry

Submitted by Leon / Stonehill College on Mon, 06/03/2019 - 11:32
Description

This course covers fundamentals of central topics in inorganic chemistry from historical to modern-day perspectives.  Topics include: coordination compounds (history, structure, bonding theories, reactivity, applications); solid state chemistry (crystals, lattices, radius ratio rule, defect structures, silicates & other minerals); and descriptive chemistry of the elements.

Inorganic Chemistry

Submitted by Anthony L. Fernandez / Merrimack College on Wed, 05/22/2019 - 10:42
Description

This course introduces the chemistry of transition metals and main group elements. Topics include theories of bonding, kinetics and mechanisms of reactions of transition metal complexes, oxidation-reduction reactions, hard-soft acid-base theory, and solid-state chemistry. Applications of inorganic chemistry to other areas (organic, analytical, and physical chemistry, as well as biology and biochemistry) are highlighted throughout the course. The laboratory portion of the course involves the synthesis and spectroscopic investigation of inorganic complexes.

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