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This is a Quantitative Study study.

September 12, 2025Open Access

From crystal structure to 3D printing to virtual reality in the classroom

Key Points

Engaging students with active learning enhances their grasp of structural chemistry concepts.
Students utilize .cif files from databases to connect theory and practical applications through 3D printing.
Visualization through virtual reality allows for a comprehensive understanding of molecular structures.
The approach addresses challenges in learning complex topics like crystallography and aromaticity.

Abstract

We introduce a pedagogical approach to teaching structural chemistry in which students at all academic levels obtain .cif files from readily accessible crystal structure databases, print the corresponding structures using a 3D printer, and visualize the molecules within a virtual platform to acquire a full 360° view of the molecules. This engaging, active learning in-class activity enhances students' understanding of key topics in a chemistry curriculum, such as coordination chemistry, symmetry elements, aromaticity, conjugation, crystallography, and many other topics that are often challenging to grasp using traditional one-dimensional tools ( e.g. , chemical formulas in lecture notes) or two-dimensional representations ( e.g. , textbook diagrams, PowerPoint presentations, or whiteboard drawings).

From crystal structure to 3D printing to virtual reality in the classroom

Key Points

Abstract

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