Interaction between water and point defects inside volume-constrained <i>α</i>-quartz: An <i>ab initio</i> molecular dynamics study at 300 K

Choudhuri, Deep; Rinehart, Alex J.

doi:10.1063/5.0190356

Journal of Applied Physics

2024

DOI: 10.1063/5.0190356

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Interaction between water and point defects inside volume-constrained α-quartz: An ab initio molecular dynamics study at 300 K

Deep Choudhuri,

Alex J. Rinehart

Abstract: Quartz-based minerals in earth’s crust are well-known to contain water-related defects within their volume-constrained lattice, and they are responsible for strength-loss. Experimental observations of natural α-quartz indicate that such defects appear as hydroxyl groups attached to Si atoms, called Griggs defect (Si-OH), and molecular water (H2O) located at the interstitial sites. However, factors contributing to the formation of Griggs and interstitial H2O defects remain unclear. For example, the role of poin… Show more

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Ab Initio Molecular Dynamics Investigation of Water and Butanone Adsorption on UiO-66 with Defects

Boyd,

Choudhuri,

Bobbitt

2024

Langmuir

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Volatile organic compounds (VOCs) are harmful chemicals that are found in minute quantities in the atmosphere and are emitted from a variety of industrial and biological processes. They can be harmful to breathe or serve as biomarkers for disease detection. Therefore, capture and detection of VOCs is important. Here, we have examined if the Zr-based UiO-66 metal−organic framework (MOF) can be used to capture butanone�a well-known VOC. Toward that end, we have performed Born−Oppenheimer ab initio molecular dynamics (AIMD) at 300 and 500 K to probe the energetics and molecular interactions between butanone [CH 3 C(O)CH 2 CH 3 ] and open-cage Zr-UiO-66. Such interactions were systematically interrogated using three MOF structures: defective MOF with a missing 1,4-benzene-dicarboxylate linker and two H 2 O; pristine MOF with two H 2 O; and pristine dry MOF. These structures were loaded with one and four molecules of butanone to examine the effect of concentration as well. One-molecule loading interacted favorably with the defective structure at 300 K, only. In comparison, interactions with four-molecule loading were energetically favorable for all conditions. Persistent hydrogen bonds between the O atom of butanone, H 2 O, and μ 3 −OH hydroxyl attachments at Zr nodes substantially contributed to the intermolecular interactions. At higher loadings, butanone also showed a pronounced tendency to diffuse into the adjoining cages of Zr-UiO-66. The effect of such movement on interaction energies was rationalized using simple statistical mechanics-based models of interacting and noninteracting gases. Broadly, we learn that the presence of prior moisture within the interstitial cages of Zr-UiO-66 significantly impacts the adsorption behavior of butanone.

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Ab Initio Molecular Dynamics Investigation of Water and Butanone Adsorption on UiO-66 with Defects

Boyd,

Choudhuri,

Bobbitt

2024

Langmuir

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Interaction between water and point defects inside volume-constrained α-quartz: An ab initio molecular dynamics study at 300 K

Cited by 1 publication

References 85 publications

Ab Initio Molecular Dynamics Investigation of Water and Butanone Adsorption on UiO-66 with Defects

Ab Initio Molecular Dynamics Investigation of Water and Butanone Adsorption on UiO-66 with Defects

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