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Hierarchical Ti3C2 MXene-derived sodium titanate nanoribbons/PEDOT for signal amplified electrochemical immunoassay of prostate specific antigen

Two-dimensional (2D) MXenes have emerged as an attractive platform to construct electrochemical biosensors because of their excellent electronic properties. However, the self-restacking and agglomeration of MXenes lead to unsatisfactory performance. To overcome these drawbacks, herein, the treatment...

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Published in:	Journal of electroanalytical chemistry (Lausanne, Switzerland) Switzerland), 2020-03, Vol.860, p.113869, Article 113869
Main Authors:	Xu, Quan, Xu, Jingkun, Jia, Haiyan, Tian, Qingyun, Liu, Peng, Chen, Shuxian, Cai, Yue, Lu, Xinyu, Duan, Xuemin, Lu, Limin
Format:	Article
Language:	English
Subjects:	Alkalizing Antibodies Antigens Biocompatibility Biosensors Electrochemical detection Electron transfer Electronic properties Gold Immunoassay Immunosensor Immunosensors MXene MXenes Nanoparticles Nanoribbons Oxidation Poly(3,4-ethylenedioxythiophene) Prostate Prostate specific antigen Selectivity Sodium titanate Three-dimensional sodium titanate
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creator	Xu, Quan Xu, Jingkun Jia, Haiyan Tian, Qingyun Liu, Peng Chen, Shuxian Cai, Yue Lu, Xinyu Duan, Xuemin Lu, Limin
description	Two-dimensional (2D) MXenes have emerged as an attractive platform to construct electrochemical biosensors because of their excellent electronic properties. However, the self-restacking and agglomeration of MXenes lead to unsatisfactory performance. To overcome these drawbacks, herein, the treatment of Ti3C2 MXene through a simultaneous oxidation and alkalization progress was proposed for the synthesis of 3D sodium titanate nanoribbons (M-NTO). Furthermore, conductive poly(3,4-ethyl-enedioxythiophene) (PEDOT) was anchored on 3D M-NTO to enhance its conductivity. The resulting M-NTO-PEDOT composite possessed high specific surface area, fast electron transfer ability, as well as excellent biocompatibility. Subsequently, Au nanoparticles (AuNPs) were electrodeposited on the surface of M-NTO-PEDOT for prostate specific antigen (PSA) antibodies immobilization. Thus, a facile electrochemical label-free immunosensor for sensitive detection of PSA was fabricated on a basis of AuNPs/M-NTO-PEDOT composite. Benefitting from the synergistic effects of M-NTO, PEDOT and AuNPs, the fabricated M-NTO-PEDOT based immunosensor exhibited good analytical performance with a low limit of detection (LOD) of 0.03 pg L−1 (S/N = 3). Additionally, high stability, good selectivity and recovery were achieved in the process of PSA detection in human serum samples. A novel electrochemical immunosensor was fabricated based on M-NTO-PEDOT/AuNPs composite for the detection of Prostate Specific Antigen. [Display omitted] •Hierarchical Ti3C2 MXene-derived sodium titanate nanoribbons (M-NTO)/PEDOT was synthesized.•M-NTO-PEDOT showed high specific surface area, good biocompatibility and conductivity.•A novel immunosensor for PSA detection was fabricated based on AuNPs/M-NTO-PEODT.•AuNPs/M-NTO-PEODT as signal amplifier greatly improved the detection sensitivity.•This immunosensor was successfully applied for the detection of PSA in real serum sample.
doi_str_mv	10.1016/j.jelechem.2020.113869
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However, the self-restacking and agglomeration of MXenes lead to unsatisfactory performance. To overcome these drawbacks, herein, the treatment of Ti3C2 MXene through a simultaneous oxidation and alkalization progress was proposed for the synthesis of 3D sodium titanate nanoribbons (M-NTO). Furthermore, conductive poly(3,4-ethyl-enedioxythiophene) (PEDOT) was anchored on 3D M-NTO to enhance its conductivity. The resulting M-NTO-PEDOT composite possessed high specific surface area, fast electron transfer ability, as well as excellent biocompatibility. Subsequently, Au nanoparticles (AuNPs) were electrodeposited on the surface of M-NTO-PEDOT for prostate specific antigen (PSA) antibodies immobilization. Thus, a facile electrochemical label-free immunosensor for sensitive detection of PSA was fabricated on a basis of AuNPs/M-NTO-PEDOT composite. Benefitting from the synergistic effects of M-NTO, PEDOT and AuNPs, the fabricated M-NTO-PEDOT based immunosensor exhibited good analytical performance with a low limit of detection (LOD) of 0.03 pg L−1 (S/N = 3). Additionally, high stability, good selectivity and recovery were achieved in the process of PSA detection in human serum samples. A novel electrochemical immunosensor was fabricated based on M-NTO-PEDOT/AuNPs composite for the detection of Prostate Specific Antigen. [Display omitted] •Hierarchical Ti3C2 MXene-derived sodium titanate nanoribbons (M-NTO)/PEDOT was synthesized.•M-NTO-PEDOT showed high specific surface area, good biocompatibility and conductivity.•A novel immunosensor for PSA detection was fabricated based on AuNPs/M-NTO-PEODT.•AuNPs/M-NTO-PEODT as signal amplifier greatly improved the detection sensitivity.•This immunosensor was successfully applied for the detection of PSA in real serum sample.</description><identifier>ISSN: 1572-6657</identifier><identifier>EISSN: 1873-2569</identifier><identifier>DOI: 10.1016/j.jelechem.2020.113869</identifier><language>eng</language><publisher>Amsterdam: Elsevier B.V</publisher><subject>Alkalizing ; Antibodies ; Antigens ; Biocompatibility ; Biosensors ; Electrochemical detection ; Electron transfer ; Electronic properties ; Gold ; Immunoassay ; Immunosensor ; Immunosensors ; MXene ; MXenes ; Nanoparticles ; Nanoribbons ; Oxidation ; Poly(3,4-ethylenedioxythiophene) ; Prostate ; Prostate specific antigen ; Selectivity ; Sodium titanate ; Three-dimensional sodium titanate</subject><ispartof>Journal of electroanalytical chemistry (Lausanne, Switzerland), 2020-03, Vol.860, p.113869, Article 113869</ispartof><rights>2020 Elsevier B.V.</rights><rights>Copyright Elsevier Science Ltd. 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However, the self-restacking and agglomeration of MXenes lead to unsatisfactory performance. To overcome these drawbacks, herein, the treatment of Ti3C2 MXene through a simultaneous oxidation and alkalization progress was proposed for the synthesis of 3D sodium titanate nanoribbons (M-NTO). Furthermore, conductive poly(3,4-ethyl-enedioxythiophene) (PEDOT) was anchored on 3D M-NTO to enhance its conductivity. The resulting M-NTO-PEDOT composite possessed high specific surface area, fast electron transfer ability, as well as excellent biocompatibility. Subsequently, Au nanoparticles (AuNPs) were electrodeposited on the surface of M-NTO-PEDOT for prostate specific antigen (PSA) antibodies immobilization. Thus, a facile electrochemical label-free immunosensor for sensitive detection of PSA was fabricated on a basis of AuNPs/M-NTO-PEDOT composite. Benefitting from the synergistic effects of M-NTO, PEDOT and AuNPs, the fabricated M-NTO-PEDOT based immunosensor exhibited good analytical performance with a low limit of detection (LOD) of 0.03 pg L−1 (S/N = 3). Additionally, high stability, good selectivity and recovery were achieved in the process of PSA detection in human serum samples. A novel electrochemical immunosensor was fabricated based on M-NTO-PEDOT/AuNPs composite for the detection of Prostate Specific Antigen. 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However, the self-restacking and agglomeration of MXenes lead to unsatisfactory performance. To overcome these drawbacks, herein, the treatment of Ti3C2 MXene through a simultaneous oxidation and alkalization progress was proposed for the synthesis of 3D sodium titanate nanoribbons (M-NTO). Furthermore, conductive poly(3,4-ethyl-enedioxythiophene) (PEDOT) was anchored on 3D M-NTO to enhance its conductivity. The resulting M-NTO-PEDOT composite possessed high specific surface area, fast electron transfer ability, as well as excellent biocompatibility. Subsequently, Au nanoparticles (AuNPs) were electrodeposited on the surface of M-NTO-PEDOT for prostate specific antigen (PSA) antibodies immobilization. Thus, a facile electrochemical label-free immunosensor for sensitive detection of PSA was fabricated on a basis of AuNPs/M-NTO-PEDOT composite. Benefitting from the synergistic effects of M-NTO, PEDOT and AuNPs, the fabricated M-NTO-PEDOT based immunosensor exhibited good analytical performance with a low limit of detection (LOD) of 0.03 pg L−1 (S/N = 3). Additionally, high stability, good selectivity and recovery were achieved in the process of PSA detection in human serum samples. A novel electrochemical immunosensor was fabricated based on M-NTO-PEDOT/AuNPs composite for the detection of Prostate Specific Antigen. [Display omitted] •Hierarchical Ti3C2 MXene-derived sodium titanate nanoribbons (M-NTO)/PEDOT was synthesized.•M-NTO-PEDOT showed high specific surface area, good biocompatibility and conductivity.•A novel immunosensor for PSA detection was fabricated based on AuNPs/M-NTO-PEODT.•AuNPs/M-NTO-PEODT as signal amplifier greatly improved the detection sensitivity.•This immunosensor was successfully applied for the detection of PSA in real serum sample.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.jelechem.2020.113869</doi><orcidid>https://orcid.org/0000-0002-0720-8045</orcidid></addata></record>
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subjects	Alkalizing Antibodies Antigens Biocompatibility Biosensors Electrochemical detection Electron transfer Electronic properties Gold Immunoassay Immunosensor Immunosensors MXene MXenes Nanoparticles Nanoribbons Oxidation Poly(3,4-ethylenedioxythiophene) Prostate Prostate specific antigen Selectivity Sodium titanate Three-dimensional sodium titanate
title	Hierarchical Ti3C2 MXene-derived sodium titanate nanoribbons/PEDOT for signal amplified electrochemical immunoassay of prostate specific antigen
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