SLiThErs - Supporting Learning with Interactive Teaching: a Hosted, Engaging Roundtable

A collection of all of the IONiC VIPEr SLiThErs (Supporting Learning with Interactive Teaching: a Hosted, Engaging Roundtable). These events are short presentations on a topic followed by a period of discussion between the presenter and live participants. Each of these events is recorded and posted to the IONiC VIPEr YouTube Channel.

Chip Nataro / Lafayette College Thu, 12/17/2020 - 14:18

A Geometric Exploration of Metallic and Ionic Solid State Structure

Submitted by Jacob Lutter / University of Southern Indiana on Wed, 01/21/2026 - 17:12
Description

Two worksheets are given that walk students though visualizing and understanding solid state structure. The first worksheet focuses on metallic structure by introducing primitive, body-centered, and face-centered packing types in a cubic unit cell. Then, close packing structures are described followed by a discussion of holes in close packed or primitive packed lattices. The second worksheet introduces ionic solid structure types for the common binary salt lattices as well as perovskite and spinel structure types.

2025 Nobel Prize in Chemistry - MOFs

Submitted by Chip Nataro / Lafayette College on Wed, 10/08/2025 - 08:43

In celebration of the 2025 Nobel prize in Chemistry awarded to Susumu Kitagawa, Richard Robson and Omar Yagi, this collection features various LOs about MOFs.

Hydrocyanation

Submitted by Chip Nataro / Lafayette College on Mon, 07/07/2025 - 07:35
Description

This literature discussion was inspired by a talk given by Dr. Nora Radu, recipient of the 2025 ACS Award for Distinguished Service in the Advancement of Inorganic Chemistry. It is a bit 'big picture' in nature in that the hydrocyanation reaction is important for the synthesis of nylon. As such, there is a significant amount of background material relating to nylon-6,6. Students will read an article from C&EN, portions of a patent, and portions of an article from J. Chem.

3D Printed Crystal Structure Activity

Submitted by Chris Stromberg / Hood College on Wed, 03/19/2025 - 18:49
Description

This exercises uses beads to help show how different crystal structures are formed.  The exercise includes 3D-printed boxes with starting structures incorporated in the bottom to increase the stability of structures that students build.  The exercise also includes a number of additional 3D-printed manipulatives to help students visualize the unit cells and other properties of different crystal structures.  These include unit cells with accurate atomic and hold dimensions and several different ways to visualize the layer structures in close-packed structures.

Catalytic dechlorination of PVC

Submitted by Chip Nataro / Lafayette College on Wed, 07/24/2024 - 08:18
Description

This LO was inspired by a talk that Megan Fieser gave at the 2024 Organometallic Chemistry Gordon Research Conference. It was an excellent talk with some really interesting chemistry. Wanting something with practical application for my class focused on organometallic chemistry, I looked at one of her 'older' papers and found this really interesting rhodium catalyst. In the main paper for this LO (Mater. Horiz. 202310, 2047), the catalytic dechlorination of poly(vinyl chloride) (PVC) using a rhodium pincer complex is described.

SLiThEr #58: Embracing the maker culture in chemistry research and instruction

Submitted by Chip Nataro / Lafayette College on Fri, 03/01/2024 - 09:43
Description

BoB LeSuer (Associate Professor at SUNY - Brockport and President of IBiB) discusses using a maker space for teaching chemistry. Topics include: digital fabrication of pedagogical materials (models and periodic tables); instrumentation (potentiostat and liquid dispenser); and upcycling plastics into functional materials. Of special interest to this group will be work BoB has done on making the ICE solid state model kits available to anyone!

Inorganic Chemistry I

Submitted by Cody Webb Jr / SUNY Oneonta on Wed, 06/14/2023 - 01:57
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.

Materials Chemistry

Submitted by Deborah Polvani / Washington & Jefferson College on Mon, 06/12/2023 - 09:33
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

Advanced Inorganic Chemistry

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

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