Functionalized 3D H-SnS2-APTES-PTCA complexes with 3D hollow SnS2 as effective co-reaction accelerator for label-free electrochemiluminescence immunosensor

In this work, a novel, label-free, and self-enhanced electrochemiluminescence (ECL) immunosensor, based on 3,4,9,10-perylenetetracarboxylic acid (PTCA) and three dimensional hollow SnS2 (3D H-SnS2), was constructed to sensitively detect cardiac troponin I (cTnI). The 3D H-SnS2 was employed as an eff...

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Published in:	Sensors and actuators. B, Chemical Vol. 357; p. 131439
Main Authors:	Li, Pengfei, Lin, Shaoyu, Zheng, Zengyao, Yang, Jianying, Lin, Zhenbin, Zheng, Delun, Huang, Linjia, Chen, Yaowen, Gao, Wenhua
Format:	Journal Article
Language:	English
Published:	Lausanne Elsevier B.V 15-04-2022 Elsevier Science Ltd
Subjects:	3D H-SnS2 Aminopropyltriethoxysilane Biosensors Cardiac troponin I Electrochemiluminescence Functionalized complexes Immunosensors Ion pairs PTCA Signal amplification Tin disulfide 3D H-SnS2 Cardiac troponin I Functionalized complexes Signal amplification PTCA
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Abstract	In this work, a novel, label-free, and self-enhanced electrochemiluminescence (ECL) immunosensor, based on 3,4,9,10-perylenetetracarboxylic acid (PTCA) and three dimensional hollow SnS2 (3D H-SnS2), was constructed to sensitively detect cardiac troponin I (cTnI). The 3D H-SnS2 was employed as an effective co-reaction accelerator in an ECL system, with the 3D H-SnS2 and PTCA cross-linked through (3-aminopropyl) triethoxysilane (APTES) to form a self-reinforcing ECL system. Functionalized 3D H-SnS2-APTES-PTCA complexes were then prepared and applied for the subsequent experiments. This system had plenty of active sites on the surface of insert-like SnS2 nanosheets within the 3D H-SnS2 and as such, it could strongly induce S2O82- to produce more SO4•- radicals. Furthermore, since the luminescent substance and the co-reaction accelerator were connected together, the distance between the SO4•- radicals and the luminescent PTCA could be effectively shortened, thus enabling SO4•- to act immediately on PTCA for significantly enhancing the ECL intensity. By analyzing the mechanism involved, it was found that the conversion between the ion pairs of Sn4+/2+ played a very important role in enhancing the signal. Based on the above work, the constructed biosensor was used to detect cTnI, a signaling molecule associated with acute myocardial infarction disease. And the sensor, with its linear response range of 16 fg mL−1-16 ng mL−1 and its low detection limit of 1.19 fg mL−1, displayed potential application value in the field of clinical analysis. •3D hollow SnS2 was firstly used in the ECL system and as effective co-reaction accelerator.•The insert-like SnS2 nanosheets could fully expose a lot of active sites and promote the production of SO4•- radicals.•Functionalized 3D H-SnS2-APTES-PTCA complexes were prepared and applied in electrochemiluminescence for the first time.•The 3D H-SnS2-APTES-PTCA sensor connected 3D H-SnS2 and PTCA together, which could dramatically enhance the ECL of PTCA.•The novel biosensor demonstrated lower detection limit of 1.19 fg mL-1 for cTnI analysis.
AbstractList	In this work, a novel, label-free, and self-enhanced electrochemiluminescence (ECL) immunosensor, based on 3,4,9,10-perylenetetracarboxylic acid (PTCA) and three dimensional hollow SnS2 (3D H-SnS2), was constructed to sensitively detect cardiac troponin I (cTnI). The 3D H-SnS2 was employed as an effective co-reaction accelerator in an ECL system, with the 3D H-SnS2 and PTCA cross-linked through (3-aminopropyl) triethoxysilane (APTES) to form a self-reinforcing ECL system. Functionalized 3D H-SnS2-APTES-PTCA complexes were then prepared and applied for the subsequent experiments. This system had plenty of active sites on the surface of insert-like SnS2 nanosheets within the 3D H-SnS2 and as such, it could strongly induce S2O82- to produce more SO4•- radicals. Furthermore, since the luminescent substance and the co-reaction accelerator were connected together, the distance between the SO4•- radicals and the luminescent PTCA could be effectively shortened, thus enabling SO4•- to act immediately on PTCA for significantly enhancing the ECL intensity. By analyzing the mechanism involved, it was found that the conversion between the ion pairs of Sn4+/2+ played a very important role in enhancing the signal. Based on the above work, the constructed biosensor was used to detect cTnI, a signaling molecule associated with acute myocardial infarction disease. And the sensor, with its linear response range of 16 fg mL−1-16 ng mL−1 and its low detection limit of 1.19 fg mL−1, displayed potential application value in the field of clinical analysis. •3D hollow SnS2 was firstly used in the ECL system and as effective co-reaction accelerator.•The insert-like SnS2 nanosheets could fully expose a lot of active sites and promote the production of SO4•- radicals.•Functionalized 3D H-SnS2-APTES-PTCA complexes were prepared and applied in electrochemiluminescence for the first time.•The 3D H-SnS2-APTES-PTCA sensor connected 3D H-SnS2 and PTCA together, which could dramatically enhance the ECL of PTCA.•The novel biosensor demonstrated lower detection limit of 1.19 fg mL-1 for cTnI analysis. In this work, a novel, label-free, and self-enhanced electrochemiluminescence (ECL) immunosensor, based on 3,4,9,10-perylenetetracarboxylic acid (PTCA) and three dimensional hollow SnS2 (3D H-SnS2), was constructed to sensitively detect cardiac troponin I (cTnI). The 3D H-SnS2 was employed as an effective co-reaction accelerator in an ECL system, with the 3D H-SnS2 and PTCA cross-linked through (3-aminopropyl) triethoxysilane (APTES) to form a self-reinforcing ECL system. Functionalized 3D H-SnS2-APTES-PTCA complexes were then prepared and applied for the subsequent experiments. This system had plenty of active sites on the surface of insert-like SnS2 nanosheets within the 3D H-SnS2 and as such, it could strongly induce S2O82- to produce more SO4•- radicals. Furthermore, since the luminescent substance and the co-reaction accelerator were connected together, the distance between the SO4•- radicals and the luminescent PTCA could be effectively shortened, thus enabling SO4•- to act immediately on PTCA for significantly enhancing the ECL intensity. By analyzing the mechanism involved, it was found that the conversion between the ion pairs of Sn4+/2+ played a very important role in enhancing the signal. Based on the above work, the constructed biosensor was used to detect cTnI, a signaling molecule associated with acute myocardial infarction disease. And the sensor, with its linear response range of 16 fg mL−1-16 ng mL−1 and its low detection limit of 1.19 fg mL−1, displayed potential application value in the field of clinical analysis.
ArticleNumber	131439
Author	Yang, Jianying Zheng, Delun Huang, Linjia Zheng, Zengyao Lin, Shaoyu Lin, Zhenbin Chen, Yaowen Li, Pengfei Gao, Wenhua
Author_xml	– sequence: 1 givenname: Pengfei surname: Li fullname: Li, Pengfei organization: Department of Chemistry and Laboratory for Preparation and Application of Ordered Structural Materials of Guangdong Province, Shantou University, Shantou, Guangdong 515063, PR China – sequence: 2 givenname: Shaoyu surname: Lin fullname: Lin, Shaoyu organization: Shantou Longhu Ecological Environment Monitoring Station, Shantou, Guangdong 515041, PR China – sequence: 3 givenname: Zengyao surname: Zheng fullname: Zheng, Zengyao organization: Guangdong Shantou Supervision Testing Institute of Quality & Measuring, Shantou, Guangdong 515041, PR China – sequence: 4 givenname: Jianying surname: Yang fullname: Yang, Jianying organization: Guangdong Shantou Supervision Testing Institute of Quality & Measuring, Shantou, Guangdong 515041, PR China – sequence: 5 givenname: Zhenbin surname: Lin fullname: Lin, Zhenbin organization: Department of Chemistry and Laboratory for Preparation and Application of Ordered Structural Materials of Guangdong Province, Shantou University, Shantou, Guangdong 515063, PR China – sequence: 6 givenname: Delun surname: Zheng fullname: Zheng, Delun organization: Department of Chemistry and Laboratory for Preparation and Application of Ordered Structural Materials of Guangdong Province, Shantou University, Shantou, Guangdong 515063, PR China – sequence: 7 givenname: Linjia surname: Huang fullname: Huang, Linjia organization: Institute of Chemical Engineering, Guangdong Academy of Sciences, Guangzhou, Guangdong 510665, PR China – sequence: 8 givenname: Yaowen surname: Chen fullname: Chen, Yaowen organization: Department of Chemistry and Laboratory for Preparation and Application of Ordered Structural Materials of Guangdong Province, Shantou University, Shantou, Guangdong 515063, PR China – sequence: 9 givenname: Wenhua surname: Gao fullname: Gao, Wenhua email: whgao@stu.edu.cn organization: Department of Chemistry and Laboratory for Preparation and Application of Ordered Structural Materials of Guangdong Province, Shantou University, Shantou, Guangdong 515063, PR China
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Copyright	2022 Elsevier B.V. Copyright Elsevier Science Ltd. Apr 15, 2022
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Keywords	3D H-SnS2 Cardiac troponin I Functionalized complexes Signal amplification PTCA
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Snippet	In this work, a novel, label-free, and self-enhanced electrochemiluminescence (ECL) immunosensor, based on 3,4,9,10-perylenetetracarboxylic acid (PTCA) and...
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SubjectTerms	3D H-SnS2 Aminopropyltriethoxysilane Biosensors Cardiac troponin I Electrochemiluminescence Functionalized complexes Immunosensors Ion pairs PTCA Signal amplification Tin disulfide
Title	Functionalized 3D H-SnS2-APTES-PTCA complexes with 3D hollow SnS2 as effective co-reaction accelerator for label-free electrochemiluminescence immunosensor
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