How to identify a smoker: a salient crystallographic approach to detect thiocyanate content

There is an increasing demand for monitoring environmental pollutants and the control requires new sensing materials with better sensitivity, selectivity and reliability. In this study, a series of Co 7 clusters incorporating various flexible polyhydroxyamine ligands are explored, with the first rep...

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Bibliographic Details
Published in:RSC advances 2021-05, Vol.11 (28), p.16881-16891
Main Authors: Iman, Khushboo, Ahamad, M. Naqi, Monika, Ansari, Azaj, Saleh, Hatem A. M, Khan, M. Shahnawaz, Ahmad, Musheer, Haque, Rosenani A, Shahid, M
Format: Article
Language:English
Subjects:
Anions
Chemistry
Clusters
Crystal structure
Crystallography
Emission analysis
Environmental monitoring
Fluorescence
Luminescence quenching
Materials selection
Mathematical analysis
Medical science
Pollutants
Pollution monitoring
Quenching
Recognition
Selectivity
Single crystals
Sodium thiocyanate
Symbiosis
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Summary:There is an increasing demand for monitoring environmental pollutants and the control requires new sensing materials with better sensitivity, selectivity and reliability. In this study, a series of Co 7 clusters incorporating various flexible polyhydroxyamine ligands are explored, with the first report of thiocyanate recognition triggered by crystal formation using a Co 7 crystal ( 1 ). For this, we have fortunately synthesized three new mixed metal Co 7 clusters with fascinating structural features. The clusters were characterized by spectroscopic and single crystal X-ray diffraction methods and later by DFT calculations. Due to its better emission spectrum, 1 was further utilized for evaluating its sensing ability towards various anions in water. Surprisingly, 1 shows better quenching ability towards the recognition of SCN − with a better binding constant. The luminescence quenching towards SCN − detection was further verified by the single crystal method, HSAB principle (symbiosis) and theoretical calculations such as DFT studies. The SCXRD data clearly suggest that the Co 7 ( 1 ) can be converted into Co 14 ( 1a ) by direct reaction with NaSCN under ambient conditions. Besides the soft/hard acid-base concept (symbiosis), the energies of formation, and Co-NCS and Co-OH 2 bond energies (as unravelled by DFT) are responsible for this transformation. Therefore, 1 can be used as a selective and sensitive sensor for the detection of thiocyanate anions based on the fluorescence amplification and quenching method. Further, the designed cluster has also been utilized to detect anions in human blood samples to differentiate a smoker and a non-smoker. It has been concluded that the samples of smokers have a high degree of thiocyanate (∼12 or 9.5 mg L −1 ) in comparison to those of non-smokers (2-3 mg L −1 ). Thus, this kind of cluster material has high potentiality in the field of bio-medical science in future endeavours for identification of the extent of thiocyanate content in smokers. A new Co based sensor for thiocyanate recognition by formation of the dimeric crystals is designed to distinguish a smoker from a non-smoker.
ISSN:2046-2069
2046-2069
DOI:10.1039/d1ra01749g