Iron-Supported Asymmetric Iontronic Pressure Sensors with High Sensitivity and Extended Linearity

IF 9.1 1区化学 Q1 CHEMISTRY, ANALYTICAL ACS Sensors Pub Date : 2025-03-16 DOI:10.1021/acssensors.4c03443

Ke Ma, Senrong Ye, Gengzhe Shen, Baijun Li, Zijun Pan, Chenchen Bian, Zheng Liu, Chi Zhang, Haowei Kong, Haohan Wu, Yeqing Chen, Xin He

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Abstract

Iontronic pressure sensors (IPSs) are emerging as promising candidates for integration into wearable electronics and healthcare monitoring systems due to their high sensitivity and low power consumption. However, achieving high sensitivity across a broad linear pressure range remains a significant challenge. This study presents a novel IPS device with an asymmetric sandwich structure, which includes a three-dimensional electrode made of nickel manganese oxide/carbon nanotubes (NMO/CNT) and an embedded iron needles ionic dielectric layer. The proposed device demonstrates exceptional linearity over 1700 kPa, with a sensitivity exceeding 7700 kPa^–1. It exhibits rapid response and recovery times in the millisecond range and maintains a consistent capacitive response over 15,000 loading–unloading cycles. Moreover, the device enables noncontact sensing in response to magnetic field variations, broadening its potential applications. The innovative IPS design effectively balances high sensitivity and a wide linear pressure range, rendering it suitable for various applications such as nonverbal communication aids and healthcare monitoring systems.

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具有高灵敏度和扩展线性的铁支撑非对称离子电子压力传感器

离子电子压力传感器（IPSs）因其高灵敏度和低功耗而成为集成到可穿戴电子产品和医疗保健监测系统中的有希望的候选者。然而，在宽线性压力范围内实现高灵敏度仍然是一个重大挑战。本研究提出了一种新型的非对称夹层结构IPS器件，该器件包括由氧化镍锰/碳纳米管（NMO/CNT）制成的三维电极和嵌入的铁针离子介电层。所提出的器件在1700 kPa以上具有出色的线性，灵敏度超过7700 kPa - 1。它具有毫秒级的快速响应和恢复时间，并在15,000个加载-卸载循环中保持一致的电容响应。此外，该装置能够响应磁场变化的非接触传感，扩大了其潜在的应用范围。创新的IPS设计有效地平衡了高灵敏度和宽线性压力范围，使其适用于各种应用，如非语言通信辅助和医疗监测系统。

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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.