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Selectivity tailoring in molecular recognition based sensors: enhancement of metalloporphyrins sensitivity to hydrogen bond

机译：基于分子识别的传感器中的选择性裁缝：增强金属卟啉对氢键的敏感性

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Metalloporphyrins shown interesting properties as sensitive material for chemical sensors. In particular, they shown brilliant behaviours in electronic nose applications. From the point of view of this kind of applications it is necessary to differentiate sensor selectivity. In this paper, a method to enhance the selectivity of metalloporphyrins to hydrogen bond interacting compounds is illustrated. Furthermore, the structural modification of metalloporphyrin results in highly porous spatial arrangement of molecular films. This feature produces an improvement also at sensor sensitivity level. Modified metalloporphyrins were used to coat thickness shear mode resonators. The sensors were tested to different gases and results confirmend the enhanced responses to hydrogen bond interacting compounds such as alcohols.

机译：金属卟啉如化学传感器所示的敏感材料所示。特别是，它们在电子鼻部应用中显示出辉煌的行为。从这种应用的角度来看，有必要区分传感器选择性。本文示出了提高核卟啉选择性与氢键相互作用化合物的方法。此外，金属卟啉的结构改性导致分子膜的高度多孔空间排列。该功能也在传感器灵敏度水平上产生改进。改性金属卟啉用于涂覆厚度剪切模式谐振器。测试传感器对不同的气体，结果证实了对氢键相互作用的化合物如醇的增强的反应。

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《IEEE conference on Sensors》|2005年||共4页
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R. Paolesse; M. Mastroianni; C. Verona; A. DAmico; C. Di Natale; A. Macagnano; Institute of Electrical and Electronics EngineersInc.;
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入库时间 2022-08-20 19:37:42

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Selectivity tailoring in molecular recognition based sensors: enhancement of metalloporphyrins sensitivity to hydrogen bond

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