Zi Jing Cao scite author profile

Zi Jing Cao

2Publications

90Citation Statements Received

83Citation Statements Given

How they've been cited

106

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Affiliations

University College London

Publications

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Three-Dimensional Printing of a Scalable Molecular Model and Orbital Kit for Organic Chemistry Teaching and Learning

et al. 2017

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Three-dimensional (3D) chemical models are a well-established learning tool used to enhance the understanding of chemical structures by converting two-dimensional paper or screen outputs into realistic three-dimensional objects. While commercial atom model kits are readily available, there is a surprising lack of large molecular and orbital models that could be used in large spaces. As part of a program investigating the utility of 3D printing in teaching, a modular size-adjustable molecular model and orbital kit was developed and produced using 3D printing and was used to enhance the teaching of stereochemistry, isomerism, hybridization, and orbitals.

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3D‐Printed Polypropylene Continuous‐Flow Column Reactors: Exploration of Reactor Utility in S_NAr Reactions and the Synthesis of Bicyclic and Tetracyclic Heterocycles

Rao¹,

Patel²,

Monaco³

et al. 2017

Eur J Org Chem

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3D printing has the potential to transform the way in which chemical reactions are carried out due to its low-cost, ease-of-use as a technology and its capacity to expedite the development of iteratively enhanced prototypes. In this present study, we developed a novel, low-cost polypropylene (PP) column reactor that was incorporated into an existing continuousflow reactor for the synthesis of heterocycles. The utility and

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Zi Jing Cao

Three-Dimensional Printing of a Scalable Molecular Model and Orbital Kit for Organic Chemistry Teaching and Learning

3D‐Printed Polypropylene Continuous‐Flow Column Reactors: Exploration of Reactor Utility in S_NAr Reactions and the Synthesis of Bicyclic and Tetracyclic Heterocycles

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Zi Jing Cao

Three-Dimensional Printing of a Scalable Molecular Model and Orbital Kit for Organic Chemistry Teaching and Learning

3D‐Printed Polypropylene Continuous‐Flow Column Reactors: Exploration of Reactor Utility in SNAr Reactions and the Synthesis of Bicyclic and Tetracyclic Heterocycles

Contact Info

Product

Resources

About

3D‐Printed Polypropylene Continuous‐Flow Column Reactors: Exploration of Reactor Utility in S_NAr Reactions and the Synthesis of Bicyclic and Tetracyclic Heterocycles