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Novel Graphene Biosensor Based on the Functionalization of Multifunctional Nano-BSA for the Highly Sensitive Detection of Cancer Biomarker. / Zhou, Lin; Wang, Kun; Sun, Hao et al.
Yn: Nano-Micro Letters, Cyfrol 11, Rhif 1, 20, 09.03.2019.

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Zhou L, Wang K, Sun H, Zhao S, Chen X, Qian D et al. Novel Graphene Biosensor Based on the Functionalization of Multifunctional Nano-BSA for the Highly Sensitive Detection of Cancer Biomarker. Nano-Micro Letters. 2019 Maw 9;11(1):20. doi: 10.1007/s40820-019-0250-8

Author

Zhou, Lin ; Wang, Kun ; Sun, Hao et al. / Novel Graphene Biosensor Based on the Functionalization of Multifunctional Nano-BSA for the Highly Sensitive Detection of Cancer Biomarker. Yn: Nano-Micro Letters. 2019 ; Cyfrol 11, Rhif 1.

RIS

TY - JOUR

T1 - Novel Graphene Biosensor Based on the Functionalization of Multifunctional Nano-BSA for the Highly Sensitive Detection of Cancer Biomarker

AU - Zhou, Lin

AU - Wang, Kun

AU - Sun, Hao

AU - Zhao, Simin

AU - Chen, Xianfeng

AU - Qian, Dahong

AU - Mao, Hongju

PY - 2019/3/9

Y1 - 2019/3/9

N2 - A simple, convenient, and highly sensitive bio-interface for graphene field-effect transistors (GFETs) based on multifunctional nano-denatured bovine serum albumin (nano-dBSA) functionalization was developed to target cancer biomarkers. The novel graphene–protein bioelectronic interface was constructed by heating to denature native BSA on the graphene substrate surface. The formed nano-dBSA film served as the cross-linker to immobilize monoclonal antibody against carcinoembryonic antigen (anti-CEA mAb) on the graphene channel activated by EDC and Sulfo-NHS. The nano-dBSA film worked as a self-protecting layer of graphene to prevent surface contamination by lithographic processing. The improved GFET biosensor exhibited good specificity and high sensitivity toward the target at an ultralow concentration of 337.58 fg mL−1. The electrical detection of the binding of CEA followed the Hill model for ligand–receptor interaction, indicating the negative binding cooperativity between CEA and anti-CEA mAb with a dissociation constant of 6.82 × 10−10 M. The multifunctional nano-dBSA functionalization can confer a new function to graphene-like 2D nanomaterials and provide a promising bio-functionalization method for clinical application in biosensing, nanomedicine, and drug delivery.

AB - A simple, convenient, and highly sensitive bio-interface for graphene field-effect transistors (GFETs) based on multifunctional nano-denatured bovine serum albumin (nano-dBSA) functionalization was developed to target cancer biomarkers. The novel graphene–protein bioelectronic interface was constructed by heating to denature native BSA on the graphene substrate surface. The formed nano-dBSA film served as the cross-linker to immobilize monoclonal antibody against carcinoembryonic antigen (anti-CEA mAb) on the graphene channel activated by EDC and Sulfo-NHS. The nano-dBSA film worked as a self-protecting layer of graphene to prevent surface contamination by lithographic processing. The improved GFET biosensor exhibited good specificity and high sensitivity toward the target at an ultralow concentration of 337.58 fg mL−1. The electrical detection of the binding of CEA followed the Hill model for ligand–receptor interaction, indicating the negative binding cooperativity between CEA and anti-CEA mAb with a dissociation constant of 6.82 × 10−10 M. The multifunctional nano-dBSA functionalization can confer a new function to graphene-like 2D nanomaterials and provide a promising bio-functionalization method for clinical application in biosensing, nanomedicine, and drug delivery.

UR - https://static-content.springer.com/esm/art%3A10.1007%2Fs40820-019-0250-8/MediaObjects/40820_2019_250_MOESM1_ESM.pdf

U2 - 10.1007/s40820-019-0250-8

DO - 10.1007/s40820-019-0250-8

M3 - Article

VL - 11

JO - Nano-Micro Letters

JF - Nano-Micro Letters

SN - 2150-5551

IS - 1

M1 - 20

ER -