Selective and sustainable separation of hydrocarbons from crude oil via molecular sieve

Gengwu Zhang; Ikjin Kim; Lukman O. Alimi; Deepak Ramdas Boraste; Rahul Dev Mukhopadhyay; Weibin Lin; Aiping Chen; Vasilios G. Samaras; Abdul Hamid Emwas; Basem A. Moosa; Kimoon Kim; Niveen M. Khashab

doi:10.1038/s41893-025-01563-3

Selective and sustainable separation of hydrocarbons from crude oil via molecular sieve

Gengwu Zhang, Ikjin Kim, Lukman O. Alimi, Deepak Ramdas Boraste, Rahul Dev Mukhopadhyay, Weibin Lin, Aiping Chen, Vasilios G. Samaras, Abdul Hamid Emwas, Basem A. Moosa, Kimoon Kim^*, Niveen M. Khashab^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The sustainable separation of hydrocarbons from crude oil is critical for reducing energy consumption and carbon emissions in the chemical industry. Current methods are energy intensive and do not allow for isolation of specific hydrocarbons due to overlapping physicochemical properties and molecular complexities in crude oil. Here we introduce an energy-efficient molecular sieving strategy using cucurbit[7]uril (CB[7]) aqueous solution to directly extract cyclohexane (CH) from crude oil. CB[7] enables efficient CH separation under ambient and harsh conditions through shape- and size-selective binding with an ultrahigh affinity (2.5 × 10⁹ M⁻¹). Industrial validation shows >99% CH purity from azeotropic benzene mixtures and crude distillates and achieves 57.4–82.4% energy savings compared with current industrial methods. By demonstrating the scalability and robustness of CB[7]-based separations, this work highlights the potential of molecular sieves for sustainable, cost-effective hydrocarbon recovery from crude oil, paving the way for large-scale, sustainable hydrocarbon purification.

Original language	English (US)
Article number	6617
Journal	Nature Sustainability
DOIs	https://doi.org/10.1038/s41893-025-01563-3
State	Accepted/In press - 2025

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Publisher Copyright:
© The Author(s), under exclusive licence to Springer Nature Limited 2025.

ASJC Scopus subject areas

Global and Planetary Change
Food Science
Geography, Planning and Development
Ecology
Renewable Energy, Sustainability and the Environment
Urban Studies
Nature and Landscape Conservation
Management, Monitoring, Policy and Law

UN SDGs

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10.1038/s41893-025-01563-3

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title = "Selective and sustainable separation of hydrocarbons from crude oil via molecular sieve",

abstract = "The sustainable separation of hydrocarbons from crude oil is critical for reducing energy consumption and carbon emissions in the chemical industry. Current methods are energy intensive and do not allow for isolation of specific hydrocarbons due to overlapping physicochemical properties and molecular complexities in crude oil. Here we introduce an energy-efficient molecular sieving strategy using cucurbit[7]uril (CB[7]) aqueous solution to directly extract cyclohexane (CH) from crude oil. CB[7] enables efficient CH separation under ambient and harsh conditions through shape- and size-selective binding with an ultrahigh affinity (2.5 × 109 M−1). Industrial validation shows >99\% CH purity from azeotropic benzene mixtures and crude distillates and achieves 57.4–82.4\% energy savings compared with current industrial methods. By demonstrating the scalability and robustness of CB[7]-based separations, this work highlights the potential of molecular sieves for sustainable, cost-effective hydrocarbon recovery from crude oil, paving the way for large-scale, sustainable hydrocarbon purification.",

author = "Gengwu Zhang and Ikjin Kim and Alimi, \{Lukman O.\} and Boraste, \{Deepak Ramdas\} and Mukhopadhyay, \{Rahul Dev\} and Weibin Lin and Aiping Chen and Samaras, \{Vasilios G.\} and Emwas, \{Abdul Hamid\} and Moosa, \{Basem A.\} and Kimoon Kim and Khashab, \{Niveen M.\}",

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year = "2025",

doi = "10.1038/s41893-025-01563-3",

language = "English (US)",

journal = "Nature Sustainability",

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AU - Zhang, Gengwu

AU - Kim, Ikjin

AU - Alimi, Lukman O.

AU - Boraste, Deepak Ramdas

AU - Mukhopadhyay, Rahul Dev

AU - Lin, Weibin

AU - Chen, Aiping

AU - Samaras, Vasilios G.

AU - Emwas, Abdul Hamid

AU - Moosa, Basem A.

AU - Kim, Kimoon

AU - Khashab, Niveen M.

PY - 2025

Y1 - 2025

N2 - The sustainable separation of hydrocarbons from crude oil is critical for reducing energy consumption and carbon emissions in the chemical industry. Current methods are energy intensive and do not allow for isolation of specific hydrocarbons due to overlapping physicochemical properties and molecular complexities in crude oil. Here we introduce an energy-efficient molecular sieving strategy using cucurbit[7]uril (CB[7]) aqueous solution to directly extract cyclohexane (CH) from crude oil. CB[7] enables efficient CH separation under ambient and harsh conditions through shape- and size-selective binding with an ultrahigh affinity (2.5 × 109 M−1). Industrial validation shows >99% CH purity from azeotropic benzene mixtures and crude distillates and achieves 57.4–82.4% energy savings compared with current industrial methods. By demonstrating the scalability and robustness of CB[7]-based separations, this work highlights the potential of molecular sieves for sustainable, cost-effective hydrocarbon recovery from crude oil, paving the way for large-scale, sustainable hydrocarbon purification.

AB - The sustainable separation of hydrocarbons from crude oil is critical for reducing energy consumption and carbon emissions in the chemical industry. Current methods are energy intensive and do not allow for isolation of specific hydrocarbons due to overlapping physicochemical properties and molecular complexities in crude oil. Here we introduce an energy-efficient molecular sieving strategy using cucurbit[7]uril (CB[7]) aqueous solution to directly extract cyclohexane (CH) from crude oil. CB[7] enables efficient CH separation under ambient and harsh conditions through shape- and size-selective binding with an ultrahigh affinity (2.5 × 109 M−1). Industrial validation shows >99% CH purity from azeotropic benzene mixtures and crude distillates and achieves 57.4–82.4% energy savings compared with current industrial methods. By demonstrating the scalability and robustness of CB[7]-based separations, this work highlights the potential of molecular sieves for sustainable, cost-effective hydrocarbon recovery from crude oil, paving the way for large-scale, sustainable hydrocarbon purification.

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JF - Nature Sustainability

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Selective and sustainable separation of hydrocarbons from crude oil via molecular sieve

Abstract

Bibliographical note

ASJC Scopus subject areas

UN SDGs

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