Inorganic Chemistry I
Description

This course focuses on the chemistry of the elements, including electronic structure, bonding and
molecular structure, ionic solids, coordination compounds, the origins of the elements, and the descriptive
chemistry of the elements. Topics also include inorganic synthesis, materials science, industrial chemistry,
and an introduction to bioinorganic chemistry.

Cody Webb Jr / Hartwick College Wed, 06/14/2023 - 01:57
Inorganic Chemistry
Description

CHEM 4310 is an in-depth review of modern inorganic chemistry. Topics will include symmetry, acids and bases, reduction-oxidation reactions, periodic trends, coordination chemistry, organometallic chemistry, bioinorganic chemistry, and material chemistry. The course will meet for three hours of lecture and three hours of laboratory per week.

Jaime Murphy / Harding University Mon, 06/12/2023 - 11:04
Materials Chemistry
Description

Materials Chemistry will explore many of the fundamental relationships between a material’s chemical structure and the subsequent interesting and useful properties that result.  In order for advances in electronic, magnetic, optical, and other niche applications to be made, an understanding of the structure-property relationship in these materials is crucial.  This course will emphasize inorganic systems, and topics will include descriptions of various modern inorganic solid-s

Deborah Polvani / Washington & Jefferson College Mon, 06/12/2023 - 09:33
Advanced Inorganic Chemistry
Description

This course will explore many of the fundamental principles of inorganic chemistry, with significant emphasis on group theory, molecular orbital theory, angular overlap theory, coordination chemistry, organometallic chemistry, and bio-inorganic chemistry. Specific topics will vary, but will generally include coverage of atomic structure, simple bonding theory, donor-acceptor chemistry, the crystalline solid state, coordination compounds and isomerism, electronic and infrared spectroscopy applied to inorganic complexes, substitution mechanisms, and catalysis.

Deborah Polvani / Washington & Jefferson College Mon, 06/12/2023 - 09:18

Advanced Inorganic Chemistry

Submitted by Lauren VanGelder / Norfolk State University on Wed, 06/07/2023 - 15:17
Description

This course is an introduction to modern inorganic chemistry. Topics include principles of structure, bonding, and chemical reactivity with application to compounds of the main group and transition elements, including organometallic chemistry.

Inorganic Chemistry Ben Lovaasen / Wheaton College (IL) Thu, 05/25/2023 - 11:11

SLiThEr #48: Teaching Organometallic Chemistry to Undergraduates

Submitted by Chip Nataro / Lafayette College on Fri, 05/05/2023 - 07:49
Description

The second in a series on teaching advanced topics to undergraduates, the SLiThEr focuses on organoMetallic chemistry. While the primary framework for the discussion is my senior level course, there is plenty of great content from the live participants.

SLiThEr #49: Solid State Chemistry for Undergraduates

Submitted by Sarah Shaner / Southeast Missouri State University on Thu, 05/04/2023 - 18:57
Description

 

This is the third in a series of SLiThErs about teaching advanced inorganic chemistry topics. In this SLiThEr, Joyce Pham (CSU San Bernardino) leads a discussion on “Solid State Chemistry for Undergraduates."

Term symbols visualized

Submitted by David Eichhorn / Wichita State University on Sun, 09/25/2022 - 18:38
Description

My advanced inorganic students often have trouble conceptualizing microstates and term symbols. This exercise is intended to provide a hands-on assembly of microstate models and their combination to form term symbols.