商用ph敏感离子选择场效应晶体管的性能。

IF 3.1 4区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

ChemistryOpen Pub Date : 2025-09-24 DOI:10.1002/open.202500361

Nandor Ziebart, Alexander Gießel, Thomas Walther

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引用次数: 0

摘要

目前，ph敏感离子选择场效应晶体管（isfet）已商品化，具有高稳健性、分辨率、精度和耐用性。一个关键的缺点是它们的高价格和永久的电力需求。将商业上可用的小型ISFET传感器整合到电池供电的设备中需要进行彻底的评估和制定降低功耗的策略。在这项工作中，使用新开发的评估过程对三种不同的商用isfet进行了直接比较，旨在调查其长期性能。并详细讨论了它们在调节、线性度、精度、响应时间和长期稳定性方面的不同行为。此外，还提出了通过调整运行条件和引入onoff协议来降低功耗的策略。研究发现，所有isfet的整体性能都有局限性，表现最好的是：1)Winsense，其最高斜率为59.7 mV pH-1；2) Microsens，在推荐工作点条件下（±0.01-0.03 pH）使用SD，在降低工作条件下（±0.01 pH）使用WD，电位输出精度最高；3) Sentron，在两种节能策略下都具有最高的稳定性。结合这两种降低功率的策略，ISFET的功率需求降低了98.8%。

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The Performance of Commercial pH-Sensitive Ion-Selective Field Effect Transistors.

pH-sensitive ion-selective field effect transistors (ISFETs) are commercially available nowadays, offering high robustness, resolution, accuracy, and durability. A crucial drawback is their high price and permanent power demand. Incorporating commercially available small-sized ISFET sensors into battery-powered devices requires a thorough evaluation and the development of strategies to reduce power consumption. In this work, a direct comparison of three different commercial ISFETs is presented using a newly developed evaluation process that aims to investigate long-term performance. The different behaviors in conditioning, linearity, accuracy, response times, and long-term stability in detail are discussed. Furthermore, strategies to decrease power consumption are presented by adjusting the operating conditions and introducing an OnOff-protocol. It is found that all ISFETs have limitations in their overall performance with the best performers being 1) Winsense, with the highest slope of 59.7 mV pH^-1; 2) Microsens, with the highest potential output precision under the recommended working point conditions (±0.01-0.03 pH) with SD and reduced working conditions (± 0.01 pH) with WD; and 3) Sentron, with the highest stability under both power-reducing strategies. With the combination of both power-reducing strategies, the ISFET's power demand is reduced by 98.8%.

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来源期刊

ChemistryOpen CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

4.80

自引率

4.30%

发文量

143

审稿时长

1 months

期刊介绍： ChemistryOpen is a multidisciplinary, gold-road open-access, international forum for the publication of outstanding Reviews, Full Papers, and Communications from all areas of chemistry and related fields. It is co-owned by 16 continental European Chemical Societies, who have banded together in the alliance called ChemPubSoc Europe for the purpose of publishing high-quality journals in the field of chemistry and its border disciplines. As some of the governments of the countries represented in ChemPubSoc Europe have strongly recommended that the research conducted with their funding is freely accessible for all readers (Open Access), ChemPubSoc Europe was concerned that no journal for which the ethical standards were monitored by a chemical society was available for such papers. ChemistryOpen fills this gap.