Modulation of cation trans-membrane transport in GO-MoS2 membranes through simultaneous control of interlayer spacing and ion-nanochannel interactions

CORC > 生态环境研究中心 > 中国科学院生态环境研究中心 > 环境水质学国家重点实验室

	Modulation of cation trans-membrane transport in GO-MoS2 membranes through simultaneous control of interlayer spacing and ion-nanochannel interactions
	Sun, Jingqiu ; Chen, Yu ; Hu, Chengzhi ; Liu, Huijuan ; Qu, Jiuhui
刊名	CHEMOSPHERE
	2019-05
卷号	222 页码:156-164
关键词	MoS2 Intercalation Ion selectivity Size-sieving effect
ISSN号	0045-6535
英文摘要	The interlayer spacing and ion-nanochannel interactions of graphene oxide membranes (GOMs) were simultaneously modulated by thermal reduction and mixing with MoS2 flakes for realizing selective ion separation, which was evaluated by the ratio of ion trans-membrane penetration rates (IPR). The results showed that the ratio of IPRCu2+ to IPRNa+ increased to 1.90 in GOM after thermal reduction for 5 h, which was similar to 9.56 times higher than that without thermal reduction, indicating the increase of selectivity of Cu2+ over Na+. This was because the reduction of oxygen-containing groups narrowed the interlayer spacing and moderated the coordination between Cu2+ and sp(3) clusters in GO, leading to an enhancement of the size-sieving effect but a decrease in the Cu (ll)-nanochannel interaction. Meanwhile, the value of IPRCu2+/ IPR (Na+) was 0.374 after intercalating MoS2 into GO laminates (GO-MoS2 membrane, GMM), which was similar to 1.87 times higher in comparison with that in GOM. This might be because the intercalation of MoS2 narrowed the interlayer spacing, enhanced the size-sieving effect, and strengthened the Na+ ion-nanochannel interactions (cation-pi and ion-MoS2 chemical interactions) according to density functional theory calculations. Furthermore, IPRCu2+/IPR (Na+) was similar to 5.09 in GMM under thermal reduction for 5 h, which was similar to 25.5 times higher in comparison with that in GOM without thermal reduction, exhibiting a great enhancement in selectivity for Cu2+. This indicated that thermal reduction and MoS2 intercalation could work in concert to control the size-sieving effect and ion-nanochannel interactions to achieve fine separation of heavy metal ions from main group metal ions. (C) 2019 Elsevier Ltd. All rights reserved.
内容类型	期刊论文
源URL	[http://ir.rcees.ac.cn/handle/311016/43098]
专题	生态环境研究中心_环境水质学国家重点实验室
作者单位	1.Chinese Acad Sci, Res Ctr Ecoenvironm Sci, State Key Lab Environm Aquat Chem, Beijing 100085, Peoples R China 2.Univ Chinese Acad Sci, Beijing 100049, Peoples R China
推荐引用方式 GB/T 7714	Sun, Jingqiu,Chen, Yu,Hu, Chengzhi,et al. Modulation of cation trans-membrane transport in GO-MoS2 membranes through simultaneous control of interlayer spacing and ion-nanochannel interactions[J]. CHEMOSPHERE,2019,222:156-164.
APA	Sun, Jingqiu,Chen, Yu,Hu, Chengzhi,Liu, Huijuan,&Qu, Jiuhui.(2019).Modulation of cation trans-membrane transport in GO-MoS2 membranes through simultaneous control of interlayer spacing and ion-nanochannel interactions.CHEMOSPHERE,222,156-164.
MLA	Sun, Jingqiu,et al."Modulation of cation trans-membrane transport in GO-MoS2 membranes through simultaneous control of interlayer spacing and ion-nanochannel interactions".CHEMOSPHERE 222(2019):156-164.