Superoleophilic-Hydrophobic Kapok Oil Sorbents via Energy Efficient Carbonization

Normaisarah Yunos; Julian Müller; Soo Kien Chen; Kar Ban Tan; Marco Hepp; Benjamin Butz; Anna Schulte; Daniel Wesner; Holger Schönherr; Zainal Abidin Talib; Nora Salina MD Salim; Mohd Sabri Mohd Ghazali; Oon Jew Lee

doi:10.1080/15440478.2022.2060403

Journal of Natural Fibers (Nov 2022)

Superoleophilic-Hydrophobic Kapok Oil Sorbents via Energy Efficient Carbonization

Normaisarah Yunos,
Julian Müller,
Soo Kien Chen,
Kar Ban Tan,
Marco Hepp,
Benjamin Butz,
Anna Schulte,
Daniel Wesner,
Holger Schönherr,
Zainal Abidin Talib,
Nora Salina MD Salim,
Mohd Sabri Mohd Ghazali,
Oon Jew Lee

Affiliations

Normaisarah Yunos: Universiti Malaysia Terengganu
Julian Müller: Micro- and Nanoanalytics Group, University of Siegen
Soo Kien Chen: Universiti Putra Malaysia
Kar Ban Tan: Universiti Putra Malaysia
Marco Hepp: Micro- and Nanoanalytics Group, University of Siegen
Benjamin Butz: Micro- and Nanoanalytics Group, University of Siegen
Anna Schulte: Physical Chemistry I & Research Center of Micro and Nanochemistry and Engineering (Cμ), University of Siegen
Daniel Wesner: Physical Chemistry I & Research Center of Micro and Nanochemistry and Engineering (Cμ), University of Siegen
Holger Schönherr: Physical Chemistry I & Research Center of Micro and Nanochemistry and Engineering (Cμ), University of Siegen
Zainal Abidin Talib: College of Natural Sciences, Jeonbuk National University 567
Nora Salina MD Salim: Universiti Malaysia Terengganu
Mohd Sabri Mohd Ghazali: Universiti Malaysia Terengganu
Oon Jew Lee: Universiti Malaysia Terengganu

DOI: https://doi.org/10.1080/15440478.2022.2060403
Journal volume & issue: Vol. 19, no. 15
pp. 12398 – 12414

Abstract

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High oil sorption, dynamic oil/water selectivity and oil retention are essential for advanced materials to remediate offshore oil spills. In this context, superoleophilic-hydrophobic kapok bundles, synthesized via a simple, one-step and energy efficient carbonization (300°C), were investigated as effective oil sorbents. It was shown that the surface roughness and intrinsic graphite phase of the kapok bundles were tunable by varying the carbonization temperature, thereby enhancing their oil sorption and retention. Lumen preservation enables the carbonaceous kapok bundles to exhibit tunable oil sorption capacities of 34.0 g/g – 95.5 g/g for various types of oil, unrivaled among other oil spill recovery methods. The origin of oil permeability into lumen is attributed to nanopores observed for the first time on the carbonaceous kapok fibers. The kapok bundles selectively absorbed oil slick under vigorous water vortex and demonstrated distinctly high oil retention of 100% under gravitation force. Multiple oil sorption-desorption and compression cycles (up to 15 times) demonstrate a considerable promise of the carbonaceous kapok bundles for high reusability with low environmental impact.

Published in Journal of Natural Fibers

ISSN: 1544-0478 (Print); 1544-046X (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Science; Technology: Chemical technology: Textile bleaching, dyeing, printing, etc.
Website: https://www.tandfonline.com/journals/wjnf20

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