High-performance hydrophobic MOFs for selective acetone capture under humid conditions

Sabrina Grigoletto; Kavosh Karami; Iago Maye; Ajay Padunnappattu; Siddharth Ravichandran; Mohammad Wahiduzzaman; Louis Vanduyfhuys; Veronique Van Speybroeck; Matthias Thommes; Joeri F.M. Denayer; Norbert Stock; Guillaume Maurin

doi:10.1039/d5ta03712c

High-performance hydrophobic MOFs for selective acetone capture under humid conditions

Sabrina Grigoletto
, Kavosh Karami
, Iago Maye
, Ajay Padunnappattu
, Siddharth Ravichandran
, Mohammad Wahiduzzaman
, Louis Vanduyfhuys
, Veronique Van Speybroeck
, Matthias Thommes
, Joeri F.M. Denayer
, Norbert Stock
, Guillaume Maurin

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Capturing acetone, a major indoor air pollutant, under humid conditions is a longstanding challenge in materials science. The key obstacle lies in finding porous adsorbents that simultaneously exhibit strong affinity for acetone and intrinsic hydrophobicity, a rare and elusive pairing. Leveraging the structural and chemical versatility of metal-organic frameworks (MOFs), we first explored a diverse set of MOFs using force field Monte Carlo and density-functional theory calculations. This computational strategy identified CAU-11(Al) as a top performer: a hydrophobic, small pore MOF that enables both high acetone affinity and uptake at trace concentrations with excellent selectivity over water. Experimental validation through gas-phase pulse chromatography, adsorption measurements, and breakthrough studies confirmed the outstanding performance of this sorbent under competitive acetone/water conditions. These results position CAU-11(Al) as a promising material for real-world acetone capture in humid indoor environments.

Originele taal-2	English
Pagina's (van-tot)	26401-26412
Aantal pagina's	12
Tijdschrift	Journal of Materials Chemistry A
Volume	13
Nummer van het tijdschrift	32
DOI's	https://doi.org/10.1039/d5ta03712c
Status	Published - 12 aug. 2025

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Publisher Copyright:
© 2025 The Royal Society of Chemistry.

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10.1039/d5ta03712cLicentie: CC BY

156810208Final published version, 1,32 MBLicentie: CC BY

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SRP70: SRP-Onderzoekszwaartepunt: Duurzame chemische technologie door middel van multifunctionele gestructureerde materialen
Denayer, J. (Administrative Promotor), Broeckhoven, K. (Co-Promoter) & Van Assche, T. (Co-Promoter)
1/11/22 → 31/10/27
Project: Fundamenteel

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Grigoletto, S., Karami, K., Maye, I., Padunnappattu, A., Ravichandran, S., Wahiduzzaman, M., Vanduyfhuys, L., Van Speybroeck, V., Thommes, M., Denayer, J. F. M., Stock, N., & Maurin, G. (2025). High-performance hydrophobic MOFs for selective acetone capture under humid conditions. Journal of Materials Chemistry A, 13(32), 26401-26412. https://doi.org/10.1039/d5ta03712c

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title = "High-performance hydrophobic MOFs for selective acetone capture under humid conditions",

abstract = "Capturing acetone, a major indoor air pollutant, under humid conditions is a longstanding challenge in materials science. The key obstacle lies in finding porous adsorbents that simultaneously exhibit strong affinity for acetone and intrinsic hydrophobicity, a rare and elusive pairing. Leveraging the structural and chemical versatility of metal-organic frameworks (MOFs), we first explored a diverse set of MOFs using force field Monte Carlo and density-functional theory calculations. This computational strategy identified CAU-11(Al) as a top performer: a hydrophobic, small pore MOF that enables both high acetone affinity and uptake at trace concentrations with excellent selectivity over water. Experimental validation through gas-phase pulse chromatography, adsorption measurements, and breakthrough studies confirmed the outstanding performance of this sorbent under competitive acetone/water conditions. These results position CAU-11(Al) as a promising material for real-world acetone capture in humid indoor environments.",

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doi = "10.1039/d5ta03712c",

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AU - Grigoletto, Sabrina

AU - Karami, Kavosh

AU - Maye, Iago

AU - Padunnappattu, Ajay

AU - Ravichandran, Siddharth

AU - Wahiduzzaman, Mohammad

AU - Vanduyfhuys, Louis

AU - Van Speybroeck, Veronique

AU - Thommes, Matthias

AU - Denayer, Joeri F.M.

AU - Stock, Norbert

AU - Maurin, Guillaume

PY - 2025/8/12

Y1 - 2025/8/12

N2 - Capturing acetone, a major indoor air pollutant, under humid conditions is a longstanding challenge in materials science. The key obstacle lies in finding porous adsorbents that simultaneously exhibit strong affinity for acetone and intrinsic hydrophobicity, a rare and elusive pairing. Leveraging the structural and chemical versatility of metal-organic frameworks (MOFs), we first explored a diverse set of MOFs using force field Monte Carlo and density-functional theory calculations. This computational strategy identified CAU-11(Al) as a top performer: a hydrophobic, small pore MOF that enables both high acetone affinity and uptake at trace concentrations with excellent selectivity over water. Experimental validation through gas-phase pulse chromatography, adsorption measurements, and breakthrough studies confirmed the outstanding performance of this sorbent under competitive acetone/water conditions. These results position CAU-11(Al) as a promising material for real-world acetone capture in humid indoor environments.

AB - Capturing acetone, a major indoor air pollutant, under humid conditions is a longstanding challenge in materials science. The key obstacle lies in finding porous adsorbents that simultaneously exhibit strong affinity for acetone and intrinsic hydrophobicity, a rare and elusive pairing. Leveraging the structural and chemical versatility of metal-organic frameworks (MOFs), we first explored a diverse set of MOFs using force field Monte Carlo and density-functional theory calculations. This computational strategy identified CAU-11(Al) as a top performer: a hydrophobic, small pore MOF that enables both high acetone affinity and uptake at trace concentrations with excellent selectivity over water. Experimental validation through gas-phase pulse chromatography, adsorption measurements, and breakthrough studies confirmed the outstanding performance of this sorbent under competitive acetone/water conditions. These results position CAU-11(Al) as a promising material for real-world acetone capture in humid indoor environments.

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SN - 2050-7488

VL - 13

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JO - Journal of Materials Chemistry A

JF - Journal of Materials Chemistry A

IS - 32

ER -

High-performance hydrophobic MOFs for selective acetone capture under humid conditions

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SRP70: SRP-Onderzoekszwaartepunt: Duurzame chemische technologie door middel van multifunctionele gestructureerde materialen

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