Versatile semiconductor quantum dots: synthesis, bioconjugation strategies and application

M. Poddar, S. Khurana, S. Bose, R. Nayak
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Abstract

The present work aimed to synthesize organic and inorganic quantum dots (QDs) and discuss their bioconjugation strategies.We have prepared 3 different QDs, organic (Carbon [CQDs]) and inorganic (Cadmium Sulphide [CdS] and Zinc Mercury Selenide [ZnHgSe]) quantum dots (QDs) and bioconjugation through in-situ and ex-situ route. These QDs have been characterized through UV-Vis spectroscopy and photoluminescence (PL) emission spectra. Their surface functional groups have been identified through Fourier-transform infrared (FTIR) spectroscopy. The bioconjugated quantum dots were tested through PL emission shift, Agarose electrophoresis, and Bradford assay technique.Successful synthesized QDs, and their bioconjugation has been confirmed through the previously listed characterization techniques. There are distinct differences in their emission peak, FTIR spectroscopy, and Bradford assay, which confirms their successful bioconjugation.These bioconjugated QDs are difficult to filter from their unconjugated counterpart. Bioconjugation steps are extremely crucial.These QDs could be utilized for highly effective biolabelling and bioimaging in-vivo as well as in-vitro applications.The synthesis has been majorly modified, and the bioconjugation has been prepared in a novel method. There is limited reported work with this much description of the differences in conjugated and unconjugated QDs.
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多功能半导体量子点的合成、生物偶联策略及应用
本工作旨在合成有机和无机量子点,并讨论它们的生物偶联策略。我们通过原位和非原位途径制备了3种不同的量子点,有机(碳[CQDs])和无机(硫化镉[CdS]和硒化锌汞[ZnHgSe])量子点(QDs)和生物偶联。这些量子点通过紫外可见光谱和光致发光(PL)发射光谱进行了表征。通过傅里叶变换红外光谱(FTIR)鉴定了它们的表面官能团。通过PL发射位移、琼脂糖电泳和Bradford检测技术对生物共轭量子点进行检测。成功合成了量子点,并通过前面列出的表征技术证实了它们的生物偶联性。它们的发射峰、FTIR光谱和Bradford分析有明显的差异,这证实了它们成功的生物偶联。这些生物偶联量子点很难从它们的非偶联对应物中过滤出来。生物偶联步骤至关重要。这些量子点可用于高效的生物标记和生物成像在体内和体外应用。对合成进行了主要修饰,并以一种新的方法制备了生物偶联物。关于共轭量子点和非共轭量子点的差异的描述有限。
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来源期刊
Archives of materials science and engineering
Archives of materials science and engineering Materials Science-Materials Science (all)
CiteScore
2.90
自引率
0.00%
发文量
15
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