A Brief Overview on Luminescent Recognition and Chemosensing of Carbonate Ion

Title:A Brief Overview on Luminescent Recognition and Chemosensing of Carbonate Ion

Volume: 2

Author(s): Abhilash Pandey, Dishen Kumar Banjara, Srishti Dutta, Devanand Sahu, Vanshika Sharma and Goutam Kumar Patra*

Affiliation:

• Department of Chemistry, Guru Ghasidas Vishwavidyalaya, Bilaspur, C.G. 495009, India

Keywords: Colorimetric sensor, Fluorescent sensor, Carbonate sensor, Photo-induced electron transfer, Luminescent recognition, Chemosensing of carbonate ion.

Abstract:

Aim: Despite the recent development of chromatographic and fluorogenic anions sensors, the hydrolysis of carbon dioxide into carbonic acid and subsequent transformation into carbonates and bicarbonate are harmful to the environment and the health of living creatures. This is why luminescence-based detection techniques are getting a lot of interest right now.

Background: Despite the recent intention to create a naphthalene and triazole hybrid probe, ortho phenylenediamine (O-PDA) and two different aldehydes have been used in the present to successfully synthesize new fluorescent and colorimetric derivatives (AB). Aqueous solutions include colorimetrically detectable carbonate ions study. Additionally, we describe the creation and characterization of DHMC (7,8-dihydroxy-3-(4- methylphenyl)coumarin), a new coumarin-based molecule that responds to the carbonate ion in water and acetonitrile in terms of emission turn-on and naked-eye observability.

Object: As part of current research, a 2:1 condensate of benzildihydrazone and syringaldehyde is being processed for the detection of carbonate ions in aqueous a solution.

Methods: A luminescent lanthanide MOF-based thin film [{[Eu(HBPTC)(H₂O)]·2DMF}n] (BPTC = benzophenone-3,3',4,4'-tetracarboxylate) is successfully fabricated by electrodepositing in an anhydride system and new receptors as PDZ-1, PDZ-2, PDZ- 3 based on 2-(aryldenehydrazinyl) pyridine have been designed and for the detection of biologically and environmentally important ions. Moreover, fluorescent-colorimetric chemosensor which is based on a Schiff base for visual detection of CO₃ ^2- in an aqueous solution.

Results: Many experiments were done to detect carbonate ions through various methods by using chemosensors like novel bis Schiff base, all these methods are eco-friendly, easy to synthesize, cost-effective, naked eye detectors, and have response towards absorbance and fluorescence intensity. It has a high binding association with carbonates. It has reversibility property. On the basis of the study and results, receptors may be useful as a valuable practical sensor for environmental analyses of carbonate.

Conclusion: Detection of carbonate ions through various methods by using chemosensor like novel bis Schiff base is important for product quantity control and widely used in many daily basis products like cosmetics, glass, rayon, rubber, plastic, paper, printing ink, toothpaste and food. It has applications in therapeutic settings as well as in the fields of soil science, hydrology, and geology. Due to the hazardous effects of these, which might include death, collapse, vomiting, diarrhea, and stomach discomfort, it is also necessary to discover them. All of these techniques respond to absorbance and fluorescence intensity, are cost-effective, easy to synthesize, and visible to the naked eye.

Cite this article as:

Pandey Abhilash, Banjara Dishen Kumar, Dutta Srishti, Sahu Devanand, Sharma Vanshika and Patra Goutam Kumar*, A Brief Overview on Luminescent Recognition and Chemosensing of Carbonate Ion, Current Indian Science 2024; 2 : e2210299X281973 . https://dx.doi.org/10.2174/012210299X281973240329052611