在三维石墨烯泡沫上生长的锥形交联 ZnO 纳米线束阵列，用于左旋多巴的高灵敏度电化学检测。

Tapered cross-linked ZnO nanowire bundle arrays on three-dimensional graphene foam for highly sensitive electrochemical detection of levodopa.

机构信息

Department of Neurology, The First Affiliated Hospital of Harbin Medical University, Harbin, 150001, People's Republic of China.

School of Materials Science and Chemical Engineering, Harbin University of Science and Technology, Harbin, 150040, People's Republic of China.

出版信息

Mikrochim Acta. 2024 Jul 24;191(8):481. doi: 10.1007/s00604-024-06563-2.

DOI:10.1007/s00604-024-06563-2

PMID:39046557

Abstract

It is crucial to accurately and rapidly monitor the levodopa (LD) concentration for accurate classification and treatment of dyskinesia in Parkinson's disease. In this paper, 3D graphene foam (GF) with a highly conductive network is obtained by chemical vapor deposition. 3D GF serves as the substrate for hydrothermal in situ growth of tapered cross-linked ZnO nanowire bundle arrays (ZnO NWBAs), enabling the development of a highly sensitive detection platform for LD. The formation mechanism of a tapered cross-linked ZnO nanowire bundle arrays on 3D GF is put forward. The integration of 3D GF and ZnO NWBAs can accelerate the electron transfer rate and increase the contact area with biomolecules, resulting in high electrochemical properties. The electrode composed of ZnO NWBAs on 3D GF exhibits significant sensitivity (1.66 µA·µM·cm) for LD detection in the concentration range 0-60 µM. The electrode is able to rapidly and specifically determine LD in mixed AA or UA solution. The selectivity mechanism of the electrode is also explained by the bandgap model. Furthermore, the successful detection of LD in serum demonstrates the practicality of the electrode and its great potential for clinical application.

摘要

准确快速地监测左旋多巴（LD）浓度对于帕金森病运动障碍的准确分类和治疗至关重要。本文通过化学气相沉积得到具有高度导电网络的 3D 石墨烯泡沫（GF）。3D GF 作为水热原位生长锥形交联氧化锌纳米线束阵列（ZnO NWBAs）的基底，为 LD 的高灵敏度检测平台的开发提供了可能。提出了在 3D GF 上形成锥形交联 ZnO 纳米线束阵列的形成机制。3D GF 和 ZnO NWBAs 的集成可以加速电子转移速率并增加与生物分子的接触面积，从而具有高电化学性能。由 3D GF 上的 ZnO NWBAs 组成的电极在 0-60 µM 的浓度范围内对 LD 检测表现出显著的灵敏度（1.66 µA·µM·cm）。该电极能够在混合 AA 或 UA 溶液中快速且特异性地测定 LD。还通过能带隙模型解释了电极的选择性机制。此外，在血清中成功检测到 LD 证明了电极的实用性及其在临床应用中的巨大潜力。

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在三维石墨烯泡沫上生长的锥形交联 ZnO 纳米线束阵列，用于左旋多巴的高灵敏度电化学检测。

Tapered cross-linked ZnO nanowire bundle arrays on three-dimensional graphene foam for highly sensitive electrochemical detection of levodopa.

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