Biomimetic synthesis of copper nanoparticles using rhizome extract of Corallocarbus epigaeus and their bactericidal with photocatalytic activity

Selvam, Kandasamy; Sudhakar, Chinnappan; Selvankumar, Thangasamy; Balakrishnan, Senthilkumar; Kumar, Rathakrishnan Selva; Kannan, Nallakumar

doi:10.1007/s42452-020-2811-3

Cited by 18 publications

(2 citation statements)

References 36 publications

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“…Thus, this review covers some of the most important nanoparticle-synthesizing plants. Most of the papers in this section use agricultural waste like calli [ 98 ], rhizomes [ 175 , 176 ], fruit hulls [ 177 ], aerial parts [ 178 ], beans [ 179 ], leaves, peels, flowers, juice, and peels [ 180 ]. There are also some byproducts, such as gum [ 181 ], and some species from another kingdom, such as the algae Cystoseira trinodis [ 42 ] and the bacteria Escherichia sp.…”

Section: Resultsmentioning

confidence: 99%

Biogenic Synthesis of Copper Nanoparticles: A Systematic Review of Their Features and Main Applications

Luque-Jacobo,

Cespedes-Loayza,

Echegaray-Ugarte

et al. 2023

Molecules

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Nanotechnology is an innovative field of study that has made significant progress due to its potential versatility and wide range of applications, precisely because of the development of metal nanoparticles such as copper. Nanoparticles are bodies composed of a nanometric cluster of atoms (1–100 nm). Biogenic alternatives have replaced their chemical synthesis due to their environmental friendliness, dependability, sustainability, and low energy demand. This ecofriendly option has medical, pharmaceutical, food, and agricultural applications. When compared to their chemical counterparts, using biological agents, such as micro-organisms and plant extracts, as reducing and stabilizing agents has shown viability and acceptance. Therefore, it is a feasible alternative for rapid synthesis and scaling-up processes. Several research articles on the biogenic synthesis of copper nanoparticles have been published over the past decade. Still, none provided an organized, comprehensive overview of their properties and potential applications. Thus, this systematic review aims to assess research articles published over the past decade regarding the antioxidant, antitumor, antimicrobial, dye removal, and catalytic activities of biogenically synthesized copper nanoparticles using the scientific methodology of big data analytics. Plant extract and micro-organisms (bacteria and fungi) are addressed as biological agents. We intend to assist the scientific community in comprehending and locating helpful information for future research or application development.

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Section: Resultsmentioning

confidence: 99%

Biogenic Synthesis of Copper Nanoparticles: A Systematic Review of Their Features and Main Applications

Luque-Jacobo,

Cespedes-Loayza,

Echegaray-Ugarte

et al. 2023

Molecules

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show abstract

“…[5,18] The use of biosurfactants in wastewater treatment is primarily because they have important properties like surface and interfacial activity, specific activity, excellent foaming ability, high selectivity, tolerance to temperature, pH, and salinity as well as they are harmless to the environment in comparison to chemical surfactants. [20] They are widely employed for industrial and therapeutic uses due to their potential effects. [19] Biosurfactants have a wide range of chemical structures, as well as a wide range of binding and metal selectivity capabilities which result in increased removal efficiency.…”

Section: Introductionmentioning

confidence: 99%

Removal of Heavy Metal by Biosurfactant Producing Novel Halophilic Staphylococcus sciuri subsp. rodentium Strain SE I Isolated from Sambhar Salt Lake

2022

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The application of halophilic biosurfactant-producing bacteria to remove the pollutants from textile effluent was investigated in the current study. Staphylococcus sciuri subsp. rodentium strain SE I isolated from Sambhar Salt Lake, Rajasthan showed the highest emulsification activity of 65 � 1.2 % after 96 h of incubation with a yield of 0.189 g/l of biosurfactant. The surface tension was reduced to 46.23 mN/m � 0.46 after 72 h at pH 7.0. The presence of non-ribosomal protein sequences gave a hint of the presence of surfactin-type lipopeptide biosurfactant and Copper Translocating P-type ATPase enzyme sequences indicat-ing its presence can confer resistance against heavy metals. Strain SE I showed the potential to remove heavy metals from textile effluent viz. 67 % of Cd, 64 % of Pb, 59 % of Cu, 50 % of, Cr, and 33 % of Ni after 7 days of treatment as well exhibited decolorization of dyes ranging from 61 % � 0.15 to 95 % � 1.03, respectively. Based on the research findings, it is reasonable to conclude that surfactin biosurfactant extracted from S. sciuri subsp. rodentium strain SE I can be an alternative biosorbent and function as a bioremediation agent.

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Plant extract‐based synthesis of metallic nanomaterials, their applications, and safety concerns

Ullah

Lim

2022

Biotech & Bioengineering

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Nanotechnology has attracted the attention of researchers from different scientific fields because of the escalated properties of nanomaterials (NMs) compared with the properties of macromolecules. NMs can be prepared through different approaches involving physical and chemical methods. The development of NMs through plantbased green chemistry approaches is more advantageous than other methods from the perspectives of environmental safety, animal, and human health. The biomolecules and metabolites of plants act as reducing and capping agents for the synthesis of metallic green NMs. Plant-based synthesis is a preferred approach as it is not only cost-effective, easy, safe, clean, and eco-friendly but also provides pure NMs in high yield. Since NMs have antimicrobial and antioxidant potential, green NMs synthesized from plants can be used for a variety of biomedical and environmental remediation applications. Past studies have focused mainly on the overall biogenic synthesis of individual or combinations of metallic NMs and their oxides from different biological sources, including microorganisms and biomolecules.Moreover, from the viewpoint of biomedical applications, the literature is mainly focusing on synthetic NMs. Herein, we discuss the extraction of green molecules and recent developments in the synthesis of different plant-based metallic NMs, including silver, gold, platinum, palladium, copper, zinc, iron, and carbon. Apart from the biomedical applications of metallic NMs, including antimicrobial, anticancer, diagnostic, drug delivery, tissue engineering, and regenerative medicine applications, their environmental remediation potential is also discussed. Furthermore, safety concerns and safety regulations pertaining to green NMs are also discussed.

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Biomimetic synthesis of copper nanoparticles using rhizome extract of Corallocarbus epigaeus and their bactericidal with photocatalytic activity

Cited by 18 publications

References 36 publications

Biogenic Synthesis of Copper Nanoparticles: A Systematic Review of Their Features and Main Applications

Biogenic Synthesis of Copper Nanoparticles: A Systematic Review of Their Features and Main Applications

Removal of Heavy Metal by Biosurfactant Producing Novel Halophilic Staphylococcus sciuri subsp. rodentium Strain SE I Isolated from Sambhar Salt Lake

Plant extract‐based synthesis of metallic nanomaterials, their applications, and safety concerns

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