Cu-MOF-74 as Fluorescent Probe: Selective Optical Sensor for H2S Gas

IF 3 4区化学 Q3 CHEMISTRY, PHYSICAL

ChemPhotoChem Pub Date : 2024-12-23 DOI:10.1002/cptc.202400300

Manish Shingole, Seemita Banerjee, Brindaban Modak, Siddhartha Kolay, Jyotirmayee Mohanty, Vasanthakumaran Sudarsan

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引用次数: 0

Abstract

In order to address the air quality issues and industrial gas leakages effectively, gas sensors must be highly sensitive, selective, stable, cost-effective, and with high life time. We present here a facile solvothermal method to synthesize a Cu based metal-organic framework (Cu-MOF-74) and demonstrated its potential as a selective fluorescent probe for environmental H₂S gas detection. Cu-MOF-74 based fluorescence sensor shows strong affinity towards H₂S with the limit of detection as low as 7 ppm., Though Cu-MOF-74 based sensor exhibited high sensitivity and selectivity for H₂S gas over H₂, SO₂ and NH₃, Co-MOF-74 is inactive towards H₂S sensing. The increased fluorescence intensity in presence of H₂S gas as well as the decreased fluorescence intensity in presence of NO₂ gas was investigated by experimental observation and theoretical calculation. In presence of H₂S gas, interaction between Cu and sulphur atoms occur, the bond between Cu and ligand. This reduces the extent of ligand to metal charge transfer, resulting in increase in fluorescence intensity. The present attempt led to the progress of highly selective and sensitive fluorescence-based environmental gas sensing probe using metal organic framework with a wide operating temperature ranging of 25 °C to 90 °C.

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Cu-MOF-74荧光探针：H2S气体选择性光学传感器

为了有效地解决空气质量问题和工业气体泄漏，气体传感器必须具有高灵敏度，选择性，稳定性，成本效益和高寿命。本文提出了一种简单的溶剂热合成Cu基金属有机骨架（Cu- mof -74）的方法，并证明了其作为环境硫化氢气体检测的选择性荧光探针的潜力。基于Cu-MOF-74的荧光传感器对H2S具有很强的亲和力，检测限低至7 ppm。基于Cu-MOF-74的传感器对H2S气体的敏感性和选择性高于H2、SO2和NH3，但Co-MOF-74对H2S气体的敏感性不高。通过实验观察和理论计算研究了在H2S气体存在下荧光强度升高和NO2气体存在下荧光强度降低的现象。在H2S气体存在下，Cu原子与硫原子发生相互作用，Cu原子与配体形成键。这降低了配体对金属电荷转移的程度，导致荧光强度增加。目前的尝试导致使用金属有机框架的高选择性和敏感的荧光基环境气体传感探头的进展，工作温度范围为25°C至90°C。

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来源期刊

ChemPhotoChem Chemistry-Physical and Theoretical Chemistry

CiteScore

5.80

自引率

5.40%

发文量

165

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