Computational Exploration of the Void Space in Solid-State Materials for Chemical Applications

Virtual Winter School on Computational Chemistry

Mark the date! 11th edition: 27th-31st January 2025

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The 2024 edition of the Virtual Winter School on Computational Chemistry (VWSCC) was a tremendous success, with hundreds of subscribers.

We are now excited to announce that the 11th edition of the VWSCC will be held from January 27-31, 2025. This upcoming edition will feature talks from leading experts in various fields of computational chemistry and will include two workshops focused on some of the most popular software used by the community. Stay tuned for more details about the event!

About us

We were able to host the 2024 event thanks to the generous support of our sponsors.

Our most sincere thanks to...

The Cooper Union for the Advancement of Science and Art is pleased to provide support for the 2024 VWSCC through a generous donation from Alan Fortier. The Universidad de Salamanca for the Zoom license.

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Key Principles

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Free (but required) registration
Live lectures broadcasted on the internet using virtual conferencing software
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Speaker: M.Sc. Shane De Beer

Institute: Stellenbosch University

Country: South Africa

Speaker Link: https://www.researchgate.net/profile/Shane-De-Beer

Time: 13:45 CET 07-Feb-23

M.Sc. Shane De Beer

Stellenbosch University, South Africa

Porous solid materials, such as zeolites and metal-organic frameworks (MOFs), can have guest molecules occupying spaces in the material that can be evacuated to yield empty voids1. These voids can then be filled with different guest molecules; for some materials, only specific guests can occupy these voids. Several materials have been studied for gas storage and separation. Two such MOF materials are MIL-53(Al)2 and MOF-5083, which can both take up a number of guests with different selectivity and capacity. We computationally modelled the uptake of industrially important gases, like CO2, CH4 and C2H2, by the MOF materials. These materials can be functionalised to refine their sorption behaviours or add catalytic properties. We investigated the electronic structures of the functionalised materials to aid in the rational design of materials that can convert the guest molecules into useful products under photochemical conditions.

References

[1] - Li, H., Eddaoudi, M., O’Keeffe, M.O., Yaghi, O.M. Nature, 1999, 402, 276-279.

[2] - Loiseau, T., Serre, C., Huguenard, C., Fink, G., Taulelle, F., Henry, M., Bataille, T., Férey, G., Chem. Eur. J., 2004, 10, 1373-1382.

[3] - Chen, B., Liang, B., Yang, J., Contreras, D., Clancy, Y., Lobkovsky, E., Yaghi, O., Dai, S., Angew. Chem. Int. Ed., 2006, 45, 1390-1393.

Recording:

Shane de Beer

Published: 26 November 2022

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