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W2979486066 endingPage "110282" @default.
W2979486066 startingPage "110282" @default.
W2979486066 abstract "Three-dimensional graphene materials have been widely studied in many fields for their role as potential absorbent, especially for bilirubin adsorption. In this study, we developed a simple method to prepare reduced graphene aerogel beads as hemoperfusion materials for fast bilirubin adsorption. The graphene oxide (GO) aerogel beads were produced by self-assembly of GO nanosheet that cross-linked by Ca2+ previously in a coagulation bath, then it was reduced by ascorbic acid and lyophilized to yield the reduced graphene aerogel beads. The beads had a regular macroscopic spherical structure with a diameter of about 1.3-2 mm, where the macroporosity was about 10 μm and the mesoporosity was about 12 nm. The macro-mesoporous structure also gave the reduced graphene aerogel beads ultra-high mechanical strengths and high specific surface area, which were both important for hemoperfusion materials. Moreover, the fixed-bed column adsorption revealed that the reduced graphene aerogel beads manifested excellent bilirubin adsorption (649.512 mg/g) with a rapid adsorption equilibrium time (1.5 h) under the optimized conditions. Even in the bilirubin-enriched blood, the adsorption capacity of the beads could reach 367.14 mg/g. Furthermore, the aerogel beads had a low hemolysis ratio and improved anticoagulant property showing good blood compatibility. Hence, the spherical reduced graphene aerogel beads with millimeter-level size presented a good potential for clinical applications in hemoperfusion therapy." @default.
W2979486066 created "2019-10-18" @default.
W2979486066 creator A5010014056 @default.
W2979486066 creator A5012210612 @default.
W2979486066 creator A5077085731 @default.
W2979486066 creator A5078201248 @default.
W2979486066 creator A5080880518 @default.
W2979486066 date "2020-01-01" @default.
W2979486066 modified "2023-10-13" @default.
W2979486066 title "Fabrication of regular macro-mesoporous reduced graphene aerogel beads with ultra-high mechanical property for efficient bilirubin adsorption" @default.
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W2979486066 doi "https://doi.org/10.1016/j.msec.2019.110282" @default.
W2979486066 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31753380" @default.
W2979486066 hasPublicationYear "2020" @default.
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