Leftover Kiwi Fruit Peel-Derived Carbon Dots as a Highly Selective Fluorescent Sensor for Detection of Ferric Ion

Leftover Kiwi Fruit Peel-Derived Carbon Dots as a Highly Selective Fluorescent Sensor for Detection of Ferric Ion

Recently, the use of natural products for the synthesis of carbon dots (CDs) has received much attention. Herein, leftover kiwi (Actinidia Deliciosa) fruit peels were successfully turned into beneficial fluorescent carbon dots (KN-CDs) via the hydrothermal-carbonization route. KN-CDs 1 and KN-CDs 2...

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Bibliographic Details
Published in:Chemosensors Vol. 9; no. 7; p. 166
Main Authors: Atchudan, Raji, Edison, Thomas Nesakumar Jebakumar Immanuel, Perumal, Suguna, Vinodh, Rajangam, Sundramoorthy, Ashok K., Babu, Rajendran Suresh, Lee, Yong Rok
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-07-2021
Subjects:
Actinidia deliciosa
Agricultural wastes
Ammonium
Ammonium hydroxide
Carbon
Carbon dots
Environmental impact
ferric ion detection
Ferric ions
Fluorescence
fluorescent sensor
hydrothermal-carbonization
Iron
kiwi fruit peel
Kiwifruit
Microscopy
Morphology
Natural products
Nitrogen
Optical properties
Quantum dots
Sensors
Size distribution
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Summary:Recently, the use of natural products for the synthesis of carbon dots (CDs) has received much attention. Herein, leftover kiwi (Actinidia Deliciosa) fruit peels were successfully turned into beneficial fluorescent carbon dots (KN-CDs) via the hydrothermal-carbonization route. KN-CDs 1 and KN-CDs 2 were prepared without and with ammonium hydroxide, respectively. KN-CDs 1 and KN-CDs 2 were systematically characterized by various analytical techniques. Synthesized KN-CDs showed spherical-shaped morphology with narrow size distribution and excellent optical properties with excitation-independent behaviors. The quantum yields of KN-CDs 1 and KN-CDs 2 were calculated as 14 and 19%, respectively. Additionally, the KN-CDs possess excellent prolonging and photostability. Because of the excellent optical properties of KN-CDs, they were utilized as fluorescent sensors. The strong fluorescence of the KN-CDs was selectively quenched by Fe3+ ion, and quenching behavior showed a linear correlation with the concentrations of Fe3+ ion. KN-CDs 1 and KN-CDs 2 showed the detection of Fe3+ ions within the concentration range of 5–25 µM with the detection limit of 0.95 and 0.85 µM, respectively. Based on the turn-off sensing by the detection of Fe3+ ions, KN-CDs would be a promising candidate as a selective and sensitive fluorescent sensor.
ISSN:2227-9040
2227-9040
DOI:10.3390/chemosensors9070166