Influence of phyto-derived nitrogen doped carbon dots from the seeds of Azadirachta indica on the NaBH4 reduction of Safranin-O dye

Nitrogen doped biogenic carbon dots have become promising candidates for diverse applications in the field of environment and medicine. In the present work, an eco-friendly and hydrothermal route was employed to synthesize highly fluorescent phyto derived nitrogen doped carbon dots (PDNCDs) from nee...

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Bibliographic Details
Published in:Diamond and related materials 2020-10, Vol.108, p.107984, Article 107984
Main Authors: Dhanush, C., Sethuraman, M.G.
Format: Article
Language:English
Subjects:
Carbon
Carbon dots
Catalytic activity
Correlation analysis
Dyes
Fluorescence
Hydrothermal carbonization
Neem seeds
Nitrogen
Nitrogen doped CDs
Optical properties
Reduction
Safranin-O dye
Zeta potential
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Summary:Nitrogen doped biogenic carbon dots have become promising candidates for diverse applications in the field of environment and medicine. In the present work, an eco-friendly and hydrothermal route was employed to synthesize highly fluorescent phyto derived nitrogen doped carbon dots (PDNCDs) from neem seeds. The prepared PDNCDs exhibited high water dispersity, excellent optical and fluorescent properties. The size of the PDNCDs was about 2.5 nm as given by the HR-TEM results. The PDNCDs were demonstrated to have high stability through zeta potential and TGA measurements. Their amorphous nature was explained from the results of XRD. The XPS, FT-IR and EDS measurements correlated well with each other in the characterization of functional moieties and elemental proportions of the PDNCDs. Raman spectroscopic and SAED results confess the graphitic nature of the PDNCDs. Studies with different solvents indicated that the properties of the PDNCDs can be fine-tuned. Finally, PDNCDs were found to have profound influence as catalyst in the NaBH4 reduction of Safranin-O, a phenazine dye, with the reduction completed within 6 min. The catalytic influence of PDNCDs could be elucidated on the basis of Langmuir- Hinshelwood mechanism. [Display omitted] •Fluorescent PDNCDs was synthesized through a simple hydrothermal method using neem seeds.•PDNCDs had a spherical shape and a size of 2.5 nm with functional groups such as amines, carbonyl and hydroxyl moieties on their surface.•The emission intensity of PDNCDs can be fine-tuned by the choice of solvent.•PDNCDs have been found to have profound influence as catalyst in the NaBH4 reduction of SO dye.
ISSN:0925-9635
1879-0062
DOI:10.1016/j.diamond.2020.107984