纳米尺度声振动的灵敏检测

IF 8.2 1区化学 Q1 CHEMISTRY, ANALYTICAL

ACS Sensors Pub Date : 2025-04-24 DOI:10.1021/acssensors.5c00393

Hanyu Liu, Jinling Ma, Mingcai Xie, Weiqing Yang, Sushu Wan, Daocheng Hong, Zhihong Wei, Yuxi Tian

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引用次数: 0

摘要

纳米尺度的振动检测对于各种应用都是至关重要的。由于声波探测的波长较长，其空间分辨率限制在微米级。采用金纳米棒（GNR）的单分子探针在室温下探测纳米尺度的声波。然而，由于探针分子和gnr的随机分布，检测效率极低，只能在固相中进行检测。在这项工作中，我们使用dsDNA将GNR和探针分子化学连接，从而提供精确的距离控制。与以往的工作相比，检测灵敏度提高了2个数量级，接近理论检测极限，检测效率从1%以下提高到95%以上。此外，这种双脱氧核糖核酸（dsDNA）连接可以通过单个纳米探测器对水下的声波进行灵敏探测，从而“聆听”两个八度的音乐声音。这些结果表明，我们在精确距离控制方面的成就代表着我们在声波单分子检测的实际应用中迈出了重要的一步。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Sensitive Detection of Acoustic Vibration at Nanometer Scale

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Sensitive Detection of Acoustic Vibration at Nanometer Scale

The detection of vibrations at nanometer scale is crucial for a variety of applications. The spatial resolution of acoustic detection is limited to micrometers due to its long wavelength. Single-molecule probes with a gold nanorod (GNR) have been proposed to detect an acoustic wave at the nanometer scale at room temperature. However, the detection efficiency is extremely low due to the random distribution of probe molecules and GNRs, and the detection can be used only in solid phases. In this work, we chemically linked the GNR and probe molecules using dsDNA, which provided precise distance control. Compared to the previous work, the detection sensitivity was improved by 2 orders of magnitude, approaching the theoretical detection limit, and the detection efficiency was improved from below 1% to over 95%. Furthermore, such a dsDNA connection allows sensitive detection of acoustic wave under water by a single nanodetector for “listening” to musical sounds covering two octaves. These results suggest that our achievement in precise distance control represents a significant step toward the practical application of single molecule detection of acoustic wave.

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来源期刊

ACS Sensors Chemical Engineering-Bioengineering

CiteScore

14.50

自引率

3.40%

发文量

372

期刊介绍： ACS Sensors is a peer-reviewed research journal that focuses on the dissemination of new and original knowledge in the field of sensor science, particularly those that selectively sense chemical or biological species or processes. The journal covers a broad range of topics, including but not limited to biosensors, chemical sensors, gas sensors, intracellular sensors, single molecule sensors, cell chips, and microfluidic devices. It aims to publish articles that address conceptual advances in sensing technology applicable to various types of analytes or application papers that report on the use of existing sensing concepts in new ways or for new analytes.