ChemFET Anion Sensor Based on MOF Nanoparticles.

IF 3 4区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY ChemPlusChem Pub Date : 2024-11-10 DOI:10.1002/cplu.202400622
Douglas H Banning, Audrey M Davenport, Natalie M Lakanen, Jiawei Huang, Carl K Brozek, Darren W Johnson
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Abstract

Nanoparticles of metal-organic frameworks (nanoMOFs) possess the unusual combination of both internal and external surfaces. While internal surfaces have been the focus of fundamental and applications-based MOF studies, the chemistry of the external surfaces remains scarcely understood. Herein we report that specific ion interactions with nanoparticles of Cu(1,2,3-triazolate)2 (Cu(TA)2) resemble the Hofmeister behavior of proteins and the supramolecular chemistry of synthetic macromolecules. Inspired by these anion-selective interactions, we tested the performance of Cu(TA)2 nanoparticles as chemical field effect transistor (ChemFET) anion sensors. Rather than size-based selectivity, the detection limits of the devices exhibit a Hofmeister trend, with the greatest sensitivity towards anions perchlorate, iodide, and nitrate. These results highlight the importance of the pore-based supramolecular interactions, rather than localized donor-acceptor pairs, in designing MOF-based technologies.

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基于 MOF 纳米粒子的 ChemFET 阴离子传感器。
纳米金属有机框架(metal-organic frameworks,nanoMOFs)的纳米粒子具有不同寻常的内外表面组合。虽然内表面一直是 MOF 基础研究和应用研究的重点,但人们对其外表面的化学性质却知之甚少。在此,我们报告了特定离子与 Cu(1,2,3-triazolate)2(Cu(TA)2)纳米粒子的相互作用类似于蛋白质的霍夫迈斯特行为和合成大分子的超分子化学。受这些阴离子选择性相互作用的启发,我们测试了 Cu(TA)2 纳米粒子作为化学场效应晶体管(ChemFET)阴离子传感器的性能。与基于尺寸的选择性不同,这些器件的检测限呈现出霍夫迈斯特趋势,对高氯酸根、碘化物和硝酸根阴离子的灵敏度最高。这些结果凸显了在设计基于 MOF 的技术时,基于孔隙的超分子相互作用而非局部供体-受体对的重要性。
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来源期刊
ChemPlusChem
ChemPlusChem CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
5.90
自引率
0.00%
发文量
200
审稿时长
1 months
期刊介绍: ChemPlusChem is a peer-reviewed, general chemistry journal that brings readers the very best in multidisciplinary research centering on chemistry. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies. Fully comprehensive in its scope, ChemPlusChem publishes articles covering new results from at least two different aspects (subfields) of chemistry or one of chemistry and one of another scientific discipline (one chemistry topic plus another one, hence the title ChemPlusChem). All suitable submissions undergo balanced peer review by experts in the field to ensure the highest quality, originality, relevance, significance, and validity.
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