改性石墨烯复合材料的多功能结合化学用于选择性和高效吸附汞。

Multifunctional Binding Chemistry on Modified Graphene Composite for Selective and Highly Efficient Adsorption of Mercury.

机构信息

School of Chemical Engineering , The University of Adelaide , Adelaide , South Australia 5005 , Australia.

ARC Hub for Graphene Enabled Industry Transformation , The University of Adelaide , Adelaide , South Australia 5005 , Australia.

出版信息

ACS Appl Mater Interfaces. 2019 Feb 13;11(6):6350-6362. doi: 10.1021/acsami.8b17131. Epub 2019 Jan 31.

DOI:10.1021/acsami.8b17131

PMID:30507147

Abstract

Engineering of multifunctional binding chemistry on graphene composites using thiol-ene click reaction for selective and highly efficient adsorption of mercury(II) is demonstrated. Graphene oxide (GO) is used as an initial material for covalent attachment of cysteamine molecules by thiol-ene click reaction on C═C groups to achieve a partially reduced graphene surface with multiple binding chemistry such as O, S, and N. Batch adsorption studies showed remarkable adsorption rate with only 1 mg L dosage of adsorbent used to remove 95% Hg (II) (∼1.5 mg L) within 90 min. The high adsorption capacity of 169 ± 19 mg g, high selectivity toward Hg in the presence of 30 times higher concentration of competing ions (Cd, Cu, Pb) and high regeneration ability (>97%) for five consecutive adsorption-desorption cycles were achieved. Comparative study with commercial activated carbon using spiked Hg (II) river water confirmed the high performance and potential of this adsorbent for real mercury remediation of environmental and drinking waters.

摘要

通过巯基-烯点击反应在石墨烯复合材料上构建多功能结合化学，实现了对汞（II）的选择性和高效吸附。使用氧化石墨烯（GO）作为初始材料，通过巯基-烯点击反应在 C=C 基团上共价连接半胱胺分子，以实现具有多种结合化学性质的部分还原石墨烯表面，如 O、S 和 N。批量吸附研究表明，仅使用 1 毫克/升剂量的吸附剂，在 90 分钟内即可去除 95%的 Hg（II）（约 1.5 毫克/升），吸附速度非常快。该吸附剂具有 169±19mg g 的高吸附容量、在 30 倍更高浓度的竞争离子（Cd、Cu、Pb）存在下的高选择性以及超过 97%的五次连续吸附-解吸循环的高再生能力。使用加标 Hg（II）河水与商业活性炭的对比研究证实了该吸附剂在环境和饮用水中实际除汞方面的高性能和潜力。

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改性石墨烯复合材料的多功能结合化学用于选择性和高效吸附汞。

Multifunctional Binding Chemistry on Modified Graphene Composite for Selective and Highly Efficient Adsorption of Mercury.

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