Repurposing the domestic organic waste into green emissive carbon dots and carbonized adsorbent: A sustainable zero waste process for metal sensing and dye sequestration

Das, Manita; Thakkar, Harshil; Patel, Divyesh; Thakore, Sonal

doi:10.1016/j.jece.2021.106312

Cited by 41 publications

(23 citation statements)

References 53 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…8e). 116 The domestic organic waste-derived CDs emitted green fluorescence and were highly sensitive to Cr 6+ (Fig. 8f and g), which effectively decreased the detection limit of Cr 6+ to the picomolar range (81 pM, Fig.…”

Section: Biological and Environmental Impactsmentioning

confidence: 98%

See 1 more Smart Citation

Carbon dots derived from natural sources and their biological and environmental impacts

Xiang

Tan

2022

Environ. Sci.: Nano

View full text Add to dashboard Cite

show abstract

Section: Biological and Environmental Impactsmentioning

confidence: 98%

“…Furthermore, Tan et al successfully prepared fluorescent CDs using natural products as carbon sources and found the great antibacterial activity of the products against Pseudomonas fragi. 121 Taking advantage of the doped 116 Copyright 2021, Elsevier. (j) CDs prepared from ginkgo for sensing SASP.…”

Section: Environmental Impactsmentioning

confidence: 99%

Carbon dots derived from natural sources and their biological and environmental impacts

Xiang

Tan

2022

Environ. Sci.: Nano

View full text Add to dashboard Cite

show abstract

“…The natural presence of heteroatoms in biomass derived precursors saves the additional steps related to the incorporation of external heteroatoms ( Meng et al., 2019 , p. 20). The abundance of functional groups in biomass structure provides multiple pathway reactions ( Liu et al., 2020b ; Das et al., 2021 ). If it comes from agricultural by-products, it generally contains an average composition of 40–50% cellulose, 20–30% hemicellulose, 20–25% lignin, and 1–5% ash ( Kang et al., 2020 ; Mahat and Shamsudin, 2020 ).…”

Section: Biomassmentioning

confidence: 99%

“…Although the synthesis of CDs from renewable bio-sources has its own challenges, it has been a desirable approach ( De and Karak, 2013 ), because of several advantages, like sustainability, low cost, added value to waste, pollution-free materials, and green preparation methods ( Liu et al., 2019c ; Liu et al., 2019b ; Singh et al., 2019 ; Yu et al., 2019 ; Ahmadi et al., 2020 ; Boruah et al., 2020 ; Wang et al., 2020a ; Liu et al., 2020a ; Lu et al., 2020 ; Das et al., 2021 ; Ding et al., 2021 ; Lou et al., 2021 ). Moreover, biomass-derived nanomaterials exhibit excellent water solubility, nontoxicity, and good biocompatibility ( Wang et al., 2020b ; Luo et al., 2021 ; Krishnaiah et al., 2022 ).…”

Section: Biomassmentioning

confidence: 99%

“…retusus) fruit extract ( Atchudan et al., 2017 ) (plant source) Hydrothermal 70 0–2 9 Al (III), Ca (II), Cd (II), Co (II), Cr (III), Cu (II), Fe (II), Fe (III) , Hg (II), Ni (II), Pb (II), and Zn (II) Kiwi fruit peels + ammonium hydroxide ( Atchudan et al., 2021 ) (plant source) Hydrothermal 0.95 and 0.85 5–25 14 19 Al (III), Ca (II), Cd (II), Co (III), Cr (III), Cu (II), Fe (III) , Hg (II), Mn (II), Ni (II), Pb (II), and Zn (III) Betel leaves + aq. ammonia ( Atchudan et al., 2019 ) (plant source) Hydrothermal 0.135 0.3–3.3 4.21 K (I), Cu (I), Na (I), Pb (II), Cu (II), Cr (VI), Zn (II), Fe (II), Cd (II), Ag (I), Fe (III) , Hg (III), and Mn (III) Curauá (Ananas erectifolius) fibers ( Raja et al., 2021 ) (plant source) Hydrothermal 0–30 0.77 – Fe (III) , Na(I), K (I),Mg (II), Ca (II), Ba (II), Cr (II), Mn (II), Fe (II), Co (II), Ni (II), Cu (II), Ag (I), Zn (II), Cd (II), Hg (II), and Al (III) Ripe banana peels + ethylene diamine + L-cysteine ( Das et al., 2021 ) (plant source) Hydrothermal 10–200 ×10 −6 121 × 10 −6 27 Fe (III) , Hg (II), Cu (II), Cr (VI), Cd (II), Mg (II), Na (I), and K (I) Biomass waste (orange peel , ginkgo biloba leaves , paulownia leaves, and magnolia flower) ( Wang et al., 2020a ) (mixture of 4 different plant sources) Hydrothermal 0.088 (MF-CQDs) 0.2–100 8.13 Ag (I), K (I), Na (I), Pb (II), Fe (III) , Fe (II), Zn (II), Cu (II), Mg (II), Ca (II), Al (III), Cd (II), Cr (III), Ba (II), and Hg (II) 0.073 (OP-CQDs) 4.29 0.080 (GB-CQD) 7.72 0.10 (PL-CQDs) 4.74 …”

Section: Carbon Dots For Heavy Metal Ion Detectionmentioning

confidence: 99%

See 1 more Smart Citation

Heavy metal ion detection using green precursor derived carbon dots

Torres¹,

Bogireddy

Kaur

et al. 2022

iScience

View full text Add to dashboard Cite

Blazing Carbon Dots: Unfolding its Luminescence Mechanism to Photoinduced Biomedical Applications

Mate,

Satwani,

Pranav

et al. 2024

Chemistry An Asian Journal

View full text Add to dashboard Cite

Carbon dots (CDs) are carbon‐based nanomaterials that have garnered immense interest due to their exceptional photophysical and optoelectronic properties. They have been employed extensively for biomedical imaging and phototherapy due to their superb water dispersibility, low toxicity, outstanding biocompatibility, and exceptional tissue permeability. This review summarizes the luminescence mechanism of CDs. The modification in CDs via various doping routes is comprehensively reviewed, and the effect of such alterations on their photophysical properties, such as photoluminescence (PL), absorbance, and reactive oxygen species generation ability, is also highlighted. This review also aims to summarize the role of CDs in cellular imaging and fluorescence lifetime imaging for cellular metabolism. Subsequently, recent advancements and the future prospects of CDs as nanotheranostic agents have been discussed. Herein, we have discussed the role of CDs in photothermal, photodynamic, and synergistic therapy of anticancer, antiviral, and antibacterial applications. The overall summary of the review highlights the future prospects of CD‐based research in bioimaging and biomedicine.

show abstract

Repurposing the domestic organic waste into green emissive carbon dots and carbonized adsorbent: A sustainable zero waste process for metal sensing and dye sequestration

Cited by 41 publications

References 53 publications

Carbon dots derived from natural sources and their biological and environmental impacts

Carbon dots derived from natural sources and their biological and environmental impacts

Heavy metal ion detection using green precursor derived carbon dots

Blazing Carbon Dots: Unfolding its Luminescence Mechanism to Photoinduced Biomedical Applications

Contact Info

Product

Resources

About