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Ni and O co-modified MoS2 as universal SERS substrate for the detection of different kinds of substances
R. Su, S. Yang, D. L. Han, M. Y. Hu, Y. Liu, J. H. Yang and M. Gao
2023
发表期刊Journal of Colloid and Interface Science
ISSN0021-9797
卷号635页码:1-11
摘要Surface-enhanced Raman scattering (SERS) has attracted extensive attention as an ultrasensitive detec-tion method. However, the poor biocompatibility and expensive synthesis cost of noble metal SERS sub-strates have become non-negligible factors that limit the development of SERS technology. Metal chalcogenide semiconductors as an alternative to noble metal SERS substrates can avoid these disadvan-tages, but the enhancement effect is lower than that of noble metal substrates. Here, we report a method to co-modify MoS2 by Ni and O, which improves the carrier concentration and mobility of MoS2. The SERS effect of the modified MoS2 is comparable to that of noble metals. We found that the improved SERS per-formance of MoS2 can be attributed to the following two factors: strong interfacial dipole-dipole inter-action and efficient charge transfer effect. During the doping process, the incorporation of Ni and O enhances the polarity and carrier concentration of MoS2, enhances the interfacial interaction of MoS2, and provides a basis for charge transfer. During the annealing process, the introduction of O atoms into the S defects reduces the internal defects of doped MoS2, improves the carrier mobility, and promotes the efficient charge transfer effect of MoS2. The final modified MoS2 as a SERS substrate realizes low- concentration detection of bilirubin, cytochrome C, and trichlorfon. This provides promising guidance for the practical inspection of metal chalcogenide semiconductor substrates.(c) 2022 Elsevier Inc. All rights reserved.
DOI10.1016/j.jcis.2022.12.075
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收录类别sci ; ei
语种英语
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文献类型期刊论文
条目标识符http://ir.ciomp.ac.cn/handle/181722/67857
专题中国科学院长春光学精密机械与物理研究所
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R. Su, S. Yang, D. L. Han, M. Y. Hu, Y. Liu, J. H. Yang and M. Gao. Ni and O co-modified MoS2 as universal SERS substrate for the detection of different kinds of substances[J]. Journal of Colloid and Interface Science,2023,635:1-11.
APA R. Su, S. Yang, D. L. Han, M. Y. Hu, Y. Liu, J. H. Yang and M. Gao.(2023).Ni and O co-modified MoS2 as universal SERS substrate for the detection of different kinds of substances.Journal of Colloid and Interface Science,635,1-11.
MLA R. Su, S. Yang, D. L. Han, M. Y. Hu, Y. Liu, J. H. Yang and M. Gao."Ni and O co-modified MoS2 as universal SERS substrate for the detection of different kinds of substances".Journal of Colloid and Interface Science 635(2023):1-11.
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