Your search keyword '"Bhatia, Anita"' showing total 6 results

1. Luminescent nanocomposite based on Brassica juncea-derived intentionally Cu-doped carbon quantum dots embedded in bioplastic for UV-tube down-conversion applications.

Author

Sharma, Varun Dutt, Kansay, Vishal, Bhatia, Anita, and Bera, M. K.

Subjects

*QUANTUM dots, *BRASSICA juncea, *BIODEGRADABLE plastics, *NANOCOMPOSITE materials, *BRASSICA, *FLUORESCENCE spectroscopy, *CARBON

Abstract

An improvement of solid-state fluorescence from a luminous nanocomposite made from corn-starch-based bioplastic by adding intentionally Cu-doped carbon quantum dots (CQDs) has been reported. An affordable, environmentally sustainable, one-step hydrothermal technique was employed to synthesize CQDs from Brassica juncea flower extract. The morphological, structural, and physicochemical characteristics of the material were investigated. The quasi-circular shaped CQDs have been found to have a size distribution of 2–5 nm, to have yellow-greenish fluorescence upon UV stimulation, to have excellent photostability, and to be highly water soluble, with a quantum yield of up to 18.4%. Interestingly, the fluorescence spectra of intentionally Cu-doped CQDs (hereafter N, Ca, Cu-doped CQDs) were found to be brighter after 280 nm illumination than unintentional one. Furthermore, as a solid-phase dispersion matrix of CQDs, the environmentally benign and biodegradable bioplastic is appealing. As a result, this work demonstrated the effect of Cu-doping on solid-state fluorescence in the down-conversion of UVC tubes via a composite constructed by inserting CQDs into the solid-state matrix of corn-starch-based bioplastic nanocomposite, which demonstrated vivid greenish-yellow emission in the electroluminescent spectra with CIE chromatic coordinates (0.33, 0.58 vs. 0.31, 0.67). [ABSTRACT FROM AUTHOR]

Published

2023

2. Solid-state fluorescence from bioplastic nanocomposite embedded with intentional zinc doped carbon quantum dots synthesized from Brassica juncea flower extract for applications in UV-tube down-conversion.

Author

Sharma, Varun Dutt, Kansay, Vishal, Bhatia, Anita, and Bera, M.K.

Subjects

*QUANTUM dots, *BRASSICA juncea, *DOPING agents (Chemistry), *NANOCOMPOSITE materials, *FLUORESCENCE, *ZINC, *FLOWERS

Abstract

• Solid-state fluorescence from Zn-doped CQDs@bioplastics nanocomposite is reported. • Zn-doped CQDs were synthesized from Brassicca juncea flower extract. • UVC-tube down-conversion was demonstrated with bioplastic nanocomposite. • Zn-doped bioplastic nanocomposite emits more brightly than the unintentional one. • CIE chromatic coordinates of (0.39, 0.56 vs. 0.29, 0.55) were obtained. The enhancement of solid-state fluorescence from nanocomposite bioplastics containing intentionally Zn-doped carbon quantum dots (CQDs) has been reported. For the synthesis of CQDs from Brassica juncea flower extract, an economical, ecologically sustainable, and one-step hydrothermal method was used. The morphological, structural, and physicochemical properties were examined. The quasi-circular shaped CQDs, with an average diameter of 4.7 nm, were discovered to emit yellow-greenish fluorescence upon UV stimulation, to have exceptional photostability, and to be highly water soluble, with a quantum yield of up to 18%. Furthermore, a commercial UVC-tube wrapped with bioplastic nanocomposite emitted a greenish-yellow colour where intentionally Zn-doped CQDs@bioplastic nanocomposite emits more intensely than an unintentional one with CIE chromatic coordinates (0.39, 0.56 vs. 0.29, 0.55). [ABSTRACT FROM AUTHOR]

Published

2023

3. Influence of intentional phosphorus doping on Brassica juncea-derived unintentionally N, Ca-doped carbon quantum dots@bioplastic composites for applications in LED and UV-tube down-conversion.

Author

Sharma, Varun Dutt, Kansay, Vishal, Bhatia, Anita, and Bera, M.K.

Subjects

*DOPING agents (Chemistry), *BRASSICA juncea, *BRASSICA, *QUANTUM dots, *CARBON, *FLUORESCENCE, *PHOSPHORUS, *PHOSPHORUS in water

Abstract

Carbon quantum dots (CQDs)-based composite as a luminescent down-conversion materials are gaining importance nowadays because of many favorable factors including stable fluorescence, ease of functionalization, tuning of emission in visible range etc. In this work, we report an economical, sustainable and green synthesis of CQDs derived from mustard (Brassica juncea) flower extract. The as-synthesized CQDs were unintentionally doped with nitrogen and calcium without the inclusion of any doping element precursors. However, phosphorus was intentionally doped to improve the luminescent characteristics of as-synthesized CQDs. The morphological, structural, and physicochemical properties of P-doped CQDs were examined. The quasi-circular or polygonal-shaped CQDs, with an average diameter of 3.4 nm, emerged to produce yellow-greenish fluorescence upon UV stimulation, demonstrate outstanding photostability, and had a quantum yield of up to 18.2%. Furthermore, the ecologically friendly and biodegradable bioplastic is attractive as a solid phase dispersion matrix of CQDs. Hence, this work revealed the effect of phosphorus doping on solid-state fluorescence in the down-conversion of LEDs and UV tubes by producing a composite constructed through inserting CQDs into the solid-state matrix of corn-starch-based bioplastic. [Display omitted] • Effect of intentional P-doped in N,Ca-doped CQDs@bioplastic composite is reported. • Intentional P-doped CQDs were synthesized from Brassica juncea flower extract. • Down-conversion of LEDs and UV tubes have been demonstrated. • Influence of pH on fluorescence properties have also been investigated. [ABSTRACT FROM AUTHOR]

Published

2023

4. Solid-state fluorescence based on nitrogen and calcium co-doped carbon quantum dots @ bioplastic composites for applications in optical displays and light-emitting diodes.

Author

Sharma, Varun Dutt, Kansay, Vishal, Chandan, G., Bhatia, Anita, Kumar, Nikhil, Chakrabarti, S., and Bera, M.K.

Subjects

*QUANTUM dots, *LED displays, *LIGHT emitting diodes, *NUCLEAR magnetic resonance spectroscopy, *DOPING agents (Chemistry), *CORNSTARCH, *FLUORESCENCE

Abstract

Biocompatibility, low toxicity, ease of functionalization, ecologically sustainable synthesis, and a diverse variety of applications have all contributed to the current popularity of fluorescent carbon quantum dots (CQDs), a relatively new rising star among zero-dimensional carbon nanomaterials. However, expensive precursors and production, as well as a time-consuming procedure, frequently restrict the economic design that must be addressed. In this work, we report an economical, sustainable and green synthesis of fluorescent CQDs co-doped with N and Ca from mustard (Brassica) flower extract without the need of additional doping element precursors. The quasi-circular or polygonal shaped CQDs were revealed to be yellow-greenish fluorescent in nature with outstanding photo-stability and excellent water solubility, with an average diameter of 4.38 nm and a relative quantum yield of about 15%. The compositional analysis, crystallinity, and functional groups contained in as-synthesized N,Ca-co-doped CQDs were determined by XPS, XRD, and FTIR analysis, respectively. The presence of dominant sp3 hybridized carbons over sp2 was confirmed by 1H NMR and 13C NMR spectroscopy. The plausible fluorescence mechanisms are also proposed. Additionally, a biodegradable bioplastic derived from corn starch was used to develop an N, Ca-co-doped CQDs@bioplastic composite in order to demonstrate how it may be used to produce down-conversion light emitting diodes and optical displays. The impact of CQD concentrations and pH sensitivity were investigated further. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

5. Facile green synthesis and characterization of fluorescent nanoprobe based on Ca, K, N-doped carbon quantum dots derived from Aegle marmelos for bioimaging of human neuroblastoma cancer cells and living organisms.

Author

Kansay, Vishal, Sharma, Varun Dutt, Chandan, G., Sharma, Indu, Bhatia, Anita, Chakrabarti, S., and Bera, M.K.

Subjects

*BAEL (Tree), *QUANTUM dots, *CANCER cells, *DOPING agents (Chemistry), *ZETA potential, *CALCIUM compounds

Abstract

This study demonstrated an environmentally responsible, inexpensive and simple one-step hydrothermal method to synthesize biocompatible fluorescent carbon quantum dots (CQDs) from Aegle marmelos fruit extract. The near-spherical CQDs were discovered to have a naturally distributed size of 3–6 nm, were unintentionally doped with heteroatoms (Ca, K, and N) without the need for doping element precursors due to mineral contents in extract, had a quantum yield of about 4.06%, strong photostability, and excellent water solubility. Several morphological, compositional, physicochemical, and optical properties were studied. Other variables influencing CQD photoluminescence, such as hydrothermal process parameters and pH sensitivity, were also examined. Zeta potential analysis showed a negative surface charge with a zeta potential value of −5.29 mV and good dispersibility in aqueous solution. Furthermore, as an alternative to organic or synthetic probes, there is a huge need for the development of simple, affordable, and non-destructive fluorescent biomarkers. As-synthesized Ca, K, N-doped CQDs have demonstrated good fluorescent staining abilities and may be employed as a helpful probe for bio-imaging of cancer cells and other organisms. Cell survival and cytotoxicity were found to be satisfactory, with 90% of SH-SY5Y and HCT-116 cells surviving, compared to 63–77% for the other organisms, even at higher dosages (200 µg/mL) for up to 4 days. [Display omitted] • A facile heteroatom doped CQDs have been synthesized from Aegle marmelos. • Hydrothermal process dependent and pH responsive PL were examined. • Bio-imaging of cancer cells and other living organisms are demonstrated. • Cytotoxicity were found over 90% of SH-SY5Y and HCT-116 cancer cells. [ABSTRACT FROM AUTHOR]

Published

2023

6. Sustainable synthesis and characterization of fluorescent nanoprobe based on unintentional heteroatom doped-carbon quantum dots for bioimaging of human neuroblastoma cancer cells and living organisms.

Author

Kansay, Vishal, Sharma, Varun Dutt, Chandan, G., Sharma, Indu, Bhatia, Anita, Chakrabarti, S., and Bera, M.K.

Subjects

*QUANTUM dots, *FLUORESCENCE yield, *NEUROBLASTOMA, *CANCER cells, *CELL imaging, *PLANT cell culture, *CHENOPODIUM album

Abstract

[Display omitted] • Biocompatible fluorescent N,K,Ca-doped CQDs derived from Chenopodium album. • Fluorescence quantum yield up to 48.12 % was achieved. • Bioimaging of SH-SY5Y human neuroblastoma cells, bacteria, fungal, and plant cells. • The cytotoxicity and cell viability have also been examined. This study demonstrated an economical, ecologically sustainable, and simple method for producing biocompatible fluorescent carbon quantum dots (CQDs) co-doped with N, K, and Ca from bathua (Chenopodium album), a popular medicinal herb leaf extract and nutritious vegetable. The nearly spherical shaped CQDs were discovered to be 3–5 nm in size in nature, with a quantum yield of around 48.12%, robust photo-stability, and excellent water solubility. Various morphological, compositional, physicochemical and optical characteristics were investigated. Additional factors affecting the photoluminescence of CQDs, such as hydrothermal process parameters, pH, and solvent sensitivity, were investigated further. Moreover, the newly synthesized N, K, Ca-doped CQDs were demonstrated to be a useful fluorescent nanoprobe for in vitro cellular imaging of SH-SY5Y human neuroblastoma cells, as well as other living organisms such as bacteria, fungal, and plant cells, as a cost-effective alternative to organic or synthetic fluorescent probes. Cell survival and cytotoxicity were found to be acceptable, with 95% of SH-SY5Y and HCT-116 cells surviving and other organisms able to withstand higher doses (10.9 mg/mL) for up to 4 days. [ABSTRACT FROM AUTHOR]

Published

2023