具有可溶于离子液体的三甲氧基硅烷基封端配体的全色发光（CuInS）ZnS合金核/壳量子点。

Full-color-emitting (CuInS)ZnS-alloyed core/shell quantum dots with trimethoxysilyl end-capped ligands soluble in an ionic liquid.

作者信息

Wang Huiqing, Hu Jiayuan, Zhu Min, Li Yucheng, Qian Hao, Shen Xiaofei, Liebner Falk, Rosenau Thomas

机构信息

Department of Polymer Science and Engineering, School of Chemistry and Chemical Engineering, Hefei University of Technology Anhui 230009 China

Division of Chemistry of Renewables, Department of Chemistry, University of Natural Resources and Life Sciences Tulln 3430 Austria

出版信息

RSC Adv. 2019 Aug 15;9(44):25576-25582. doi: 10.1039/c9ra03066b. eCollection 2019 Aug 13.

DOI:10.1039/c9ra03066b

PMID:35530065

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9070397/

Abstract

Zinc-copper-indium sulfide (ZCIS)-alloyed quantum dots are emerging as a new family of low toxic I-III-VI semiconductors due to their broad and color-tunable emissions as well as large Stokes shifts. Here, we fabricated a series of ZCIS QDs with tunable PL wavelengths and band-gap energies a facile strategy by varying the ratio of A1-3 stock (Cu/In) to the B stock (Zn) content. The ZnS shell was formed to improve the PL emission efficiency of the core nanoparticles and the PL emission wavelength of the resulting ZCIS/ZnS NCs gradually blue-shifted with an increase in the number of shell layers, resulting in a wide range of emissions from 800 nm to 518 nm that can be tuned by the core compositions or shell layer numbers for ZCIS/ZnS. Finally, the long-chain ligands dodecanethiol/octadecylamine on the quantum dots' surface were efficiently replaced by (3-mercaptopropyl)trimethoxysilane, thus enabling their solubility in an ionic liquid, which was confirmed GC-MS. It also benefited for the co-dissolution of the polymers and chemical binding with other materials through the reactive silanol group, which provide stable and well-distributed ZCIS/ZnS QDs composites or surface coating by the QDs.

摘要

硫化锌铜铟（ZCIS）合金量子点作为一类新型的低毒I-III-VI族半导体正在兴起，这是由于它们具有宽且可颜色调谐的发射以及大的斯托克斯位移。在此，我们通过改变A1-3储备液（铜/铟）与B储备液（锌）的比例，采用一种简便的策略制备了一系列具有可调谐PL波长和带隙能量的ZCIS量子点。形成硫化锌壳层以提高核心纳米颗粒的PL发射效率，并且所得的ZCIS/ZnS纳米晶的PL发射波长随着壳层数的增加而逐渐蓝移，从而产生从800纳米到518纳米的宽范围发射，其可通过ZCIS/ZnS的核心组成或壳层数进行调谐。最后，量子点表面的长链配体十二烷硫醇/十八胺被（3-巯基丙基）三甲氧基硅烷有效地取代，从而使其能够溶解在离子液体中，这通过气相色谱-质谱联用仪得到证实。这对于聚合物的共溶解以及通过反应性硅醇基团与其他材料的化学键合也有益处，其通过量子点提供稳定且分布良好的ZCIS/ZnS量子点复合材料或表面涂层。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2c7a/9070397/b9feb16cbdcb/c9ra03066b-f1.jpg

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具有可溶于离子液体的三甲氧基硅烷基封端配体的全色发光（CuInS）ZnS合金核/壳量子点。

Full-color-emitting (CuInS)ZnS-alloyed core/shell quantum dots with trimethoxysilyl end-capped ligands soluble in an ionic liquid.

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