Surface-Engineered Amino-Graphene Oxide Aerogel Functionalized with Cyclodextrin for Desulfurization and Denitrogenation in Oil Refining
Zunbin Duan, Huiming Zhang, Qiang Tong, Yanfang Li, He Bian, Guanglei Zhang

TL;DR
A new graphene-based aerogel with cyclodextrin is developed to efficiently remove sulfur and nitrogen impurities from oil, offering high selectivity and durability.
Contribution
A surface-engineered graphene oxide aerogel functionalized with cyclodextrin is introduced for selective desulfurization and denitrogenation.
Findings
The β-CD-CONH-GO aerogel shows efficient adsorption of bicyclic impurities with high selectivity.
The removal performance follows the order indole > quinoline > benzothiophene.
The aerogel maintains >95% efficiency after five regeneration cycles, demonstrating superb durability.
Abstract
The selective removal of trace heteroatomic contaminants from fuel remains a critical challenge for clean combustion and refinery upgrading, particularly due to the chemical stability and structural similarity of sulfur- and nitrogen-containing aromatics. Herein, a surface-engineered graphene oxide aerogel functionalized with cyclodextrin (β-CD-CONH-GO) is developed via covalent grafting to introduce well-defined host–guest recognition sites within a porous framework. Spectroscopic and microscopic characterizations confirm successful functionalization, preserved aerogel morphology, and accessible hybrid interfaces. The removal process for monocyclic, bicyclic, and tricyclic impurities is governed by synergistic molecular inclusion within the cyclodextrin cavity, interfacial hydrogen bonding, and secondary confinement provided by the aerogel porosity. Thus, the β-CD-CONH-GO exhibits…
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Taxonomy
TopicsCatalysis and Hydrodesulfurization Studies · Covalent Organic Framework Applications · Mesoporous Materials and Catalysis
