Highly Sensitive, Naked Eye, and On-Spot Detection of pH Change Using Novel Phenothiazine based Schiff Base

V. Anand
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Abstract

Visual pH sensors have received significant attention in the fields of environmental monitoring, analytical chemistry, food safety and biomedicine. Therefore, a single organic moiety showing both naked-eye and fluorescence sensing of pH change are rare and in higher demands. A novel phenothiazine based Schiff base PTz-SB was synthesized via facile organic transformations. This molecule showed promising naked-eye and on-spot pH sensing application, both using UV-visible and fluorescence techniques. The novel phenothiazine based Schiff base was synthesized via facile organic transformation. The Schiff base was applied for both naked eye and fluorescence sensing of pH, using UV-visible and fluorescence techniques, respectively. A redshift of 27 nm and 80 nm was observed in the λmax of absorption and emission spectra, respectively, on changing the pH from 12.2 to 1. The naked-eye pH sensing may be attributed to the change in colour from blue (higher pH) to dark green (lower pH), under daylight conditions. Furthermore, the change in fluorescence spectra is more pronounced. The fluorescence colour of the compound changes from dark blue to green and then finally to orange, on changing the pH from 12.2 to 4 to 1.5, respectively. Moreover, the electrochemical studies of the Schiff base were also procured. The bandgap obtained from the cyclic voltammetry studies was found to be 2.04 eV, which is characteristic of green emission. The easily synthesizable novel Schiff base can be utilized for real-life, on-spot practical application of pH sensing, which does not require sophisticated analytical instruments. Moreover, the time and cost of detection of pH using this thermally robust Schiff base are also very promising.
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新型吩噻嗪Schiff碱对pH变化的高灵敏度、裸眼和现场检测
视觉pH传感器在环境监测、分析化学、食品安全和生物医学领域受到了极大的关注。因此,同时显示肉眼和荧光感测pH变化的单个有机部分是罕见的,并且要求更高。通过简单的有机转化合成了一种新型的吩噻嗪基席夫碱PTz-SB。该分子通过紫外-可见光和荧光技术在裸眼和现场pH传感方面显示出了很有前景的应用。通过简单的有机转化合成了新型吩噻嗪基席夫碱。分别使用紫外-可见光和荧光技术,将席夫碱应用于pH的肉眼和荧光传感。当pH从12.2变为1时,在吸收光谱和发射光谱的λmax中分别观察到27 nm和80 nm的红移。肉眼pH感测可归因于在日光条件下从蓝色(较高pH)到深绿色(较低pH)的颜色变化。此外,荧光光谱的变化更加明显。当pH分别从12.2到4到1.5时,化合物的荧光颜色从深蓝色变为绿色,最后变为橙色。此外,还对席夫碱进行了电化学研究。从循环伏安法研究中获得的带隙为2.04eV,这是绿色发射的特征。这种易于合成的新型希夫碱可用于pH传感的实际应用,不需要复杂的分析仪器。此外,使用这种耐热的希夫碱检测pH的时间和成本也非常有希望。
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