Knowledge Management System Of Guangzhou Institute of Energy Conversion, CAS
Imprinted MoS2 achieve highly efficient self-separative molecule extraction | |
Huang, Qizhang1,3; Chen, Peili1; Fang, Yueyun1,3; Liu, Pengyi2; Shi, Jifu1,2![]() ![]() | |
2018-05-07 | |
Source Publication | JOURNAL OF MATERIALS CHEMISTRY A
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ISSN | 2050-7488 |
Volume | 6Issue:17Pages:7395-7400 |
Corresponding Author | Shi, Jifu(shijifu2017@126.com) ; Xu, Gang(xugang@ms.giec.ac.cn) |
Abstract | Imprinting is a biological process where a young animal acquires several of its behavioural characteristics from its parent and then follows themaround and is called filial imprinting. However, imprinting can implicitly be inside the materials that possess a suitable affinity to integrate themselves with the surrounding liquid environment. In this research, an example of imprinting in molybdenum disulfide (MoS2) nanosheets was demonstrated. The as-prepared MoS2 containing a polar edge and low-polar plane faces on its flower-like morphology give it an imprinting ability to adhere to water or n-hexane. Therefore, imprinted MoS2 tends to retain the phase of the imprinting solvent, which is called solvent identification. More interestingly, imprinted MoS2 can in addition fulfill a highly efficient heterophasic extraction of rhodamine B (RhB) from water to n-hexane or lauric acid from n-hexane to water in seconds. At the same time, imprinted MoS2 solvent identification exhibits rapid self-separation after shaking, which avoids tedious centrifugation and filtration in a separation-purification process and makes it more convenient. |
DOI | 10.1039/c8ta01854e |
WOS Keyword | MOLYBDENUM-DISULFIDE ; SURFACE ; ADSORPTION ; POLARITY |
Indexed By | SCI |
Language | 英语 |
Funding Project | National Natural Science Foundation of China[21673243] ; Guangdong-Hong Kong Joint Innovation Project of Guangdong Province, China[2014B050505015] ; Special Support Program of Guangdong Province, China[2014TQ01N610] ; Project of Science and Technology Service Network initiative, Chinese Academy of Sciences[KFJ-STS-QYZD-010] ; Tibet Autonomous Region Major Special Projects[ZD20170017] |
WOS Research Area | Chemistry ; Energy & Fuels ; Materials Science |
Funding Organization | National Natural Science Foundation of China ; Guangdong-Hong Kong Joint Innovation Project of Guangdong Province, China ; Special Support Program of Guangdong Province, China ; Project of Science and Technology Service Network initiative, Chinese Academy of Sciences ; Tibet Autonomous Region Major Special Projects |
WOS Subject | Chemistry, Physical ; Energy & Fuels ; Materials Science, Multidisciplinary |
WOS ID | WOS:000431621700011 |
Publisher | ROYAL SOC CHEMISTRY |
Citation statistics | |
Document Type | 期刊论文 |
Identifier | http://ir.giec.ac.cn/handle/344007/23207 |
Collection | 中国科学院广州能源研究所 |
Corresponding Author | Shi, Jifu; Xu, Gang |
Affiliation | 1.Chinese Acad Sci, Guangzhou Inst Energy Convers, Key Lab Renewable Energy, Guangdong Prov Key Lab New & Renewable Energy Res, Guangzhou 510640, Guangdong, Peoples R China 2.Jinan Univ, Dept Phys, Siyuan Lab, Guangzhou 510632, Guangdong, Peoples R China 3.Univ Chinese Acad Sci, Beijing 100049, Peoples R China 4.Tibet New Energy Res & Demonstrat Ctr, Lhasa 850000, Tibet, Peoples R China |
First Author Affilication | GuangZhou Institute of Energy Conversion,Chinese Academy of Sciences |
Recommended Citation GB/T 7714 | Huang, Qizhang,Chen, Peili,Fang, Yueyun,et al. Imprinted MoS2 achieve highly efficient self-separative molecule extraction[J]. JOURNAL OF MATERIALS CHEMISTRY A,2018,6(17):7395-7400. |
APA | Huang, Qizhang,Chen, Peili,Fang, Yueyun,Liu, Pengyi,Shi, Jifu,&Xu, Gang.(2018).Imprinted MoS2 achieve highly efficient self-separative molecule extraction.JOURNAL OF MATERIALS CHEMISTRY A,6(17),7395-7400. |
MLA | Huang, Qizhang,et al."Imprinted MoS2 achieve highly efficient self-separative molecule extraction".JOURNAL OF MATERIALS CHEMISTRY A 6.17(2018):7395-7400. |
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