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Raj R, Bhattu M, Verma M, Acevedo R, Duc ND, Singh J. Biogenic silver based nanostructures: Synthesis, mechanistic approach and biological applications. ENVIRONMENTAL RESEARCH 2023; 231:116045. [PMID: 37146935 DOI: 10.1016/j.envres.2023.116045] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Received: 01/20/2023] [Revised: 04/20/2023] [Accepted: 05/02/2023] [Indexed: 05/07/2023]
Abstract
The alarming impact of antibiotic resistance sparked the quest for complementary treatments to overcome the confrontation over resistant pathogens. Metallic nanoparticles, especially silver nanoparticles (Ag NPs) have gained a much attention because of their remarkable biological characteristics. Moreover, their medicinal properties can be enhanced by preparing the composites with other materials. This article delves a comprehensive review of biosynthesis route for Ag NPs and their nanocomposites (NCs) with in-depth mechanism, methods and favorable experimental parameters. Comprehensive biological features Ag NPs such as antibacterial, antiviral, antifungal have been examined, with a focus on their potential uses in biomedicine and diagnostics has also been discussed. Additionally, we have also explored the hitches and potential outcomes of biosynthesis of Ag NPs in biomedical filed.
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Affiliation(s)
- Riya Raj
- Department of Biochemistry, Bangalore University, Mysore Rd, Jnana Bharathi, Bengaluru, Karnataka, 560056, India
| | - Monika Bhattu
- Department of Chemistry, University Centre for Research and Development, Chandigarh University, Gharuan, Mohali, 140413, Punjab, India
| | - Meenakshi Verma
- Department of Chemistry, University Centre for Research and Development, Chandigarh University, Gharuan, Mohali, 140413, Punjab, India
| | - Roberto Acevedo
- San Sebastián University.Santiago, Campus Bellavista 7, Chile
| | - Nguyen D Duc
- Department of Environmental Energy Engineering, Kyonggi University, South Korea
| | - Jagpreet Singh
- Department of Chemistry, University Centre for Research and Development, Chandigarh University, Gharuan, Mohali, 140413, Punjab, India.
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Cyriac V, Molakalu Padre S, Ismayil, Sangam Chandrashekar G, Chavan C, Fakeerappa Bhajantri R, Murari MS. Tuning the ionic conductivity of flexible polyvinyl alcohol/sodium bromide polymer electrolyte films by incorporating silver nanoparticles for energy storage device applications. J Appl Polym Sci 2022. [DOI: 10.1002/app.52525] [Citation(s) in RCA: 3] [Impact Index Per Article: 1.5] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/08/2022]
Affiliation(s)
- Vipin Cyriac
- Department of Sciences Manipal Academy of Higher Education Manipal Karnataka India
- Nanomaterials and Polymer Physics Lab, Department of Physics, Manipal Institute of Technology Manipal Academy of Higher Education Manipal Karnataka India
| | - Shilpa Molakalu Padre
- Department of Sciences Manipal Academy of Higher Education Manipal Karnataka India
- Nanomaterials and Polymer Physics Lab, Department of Physics, Manipal Institute of Technology Manipal Academy of Higher Education Manipal Karnataka India
| | - Ismayil
- Nanomaterials and Polymer Physics Lab, Department of Physics, Manipal Institute of Technology Manipal Academy of Higher Education Manipal Karnataka India
| | - Gurumurthy Sangam Chandrashekar
- Nanomaterials and Polymer Physics Lab, Department of Physics, Manipal Institute of Technology Manipal Academy of Higher Education Manipal Karnataka India
| | - Chetan Chavan
- Department of Studies in Physics Karnataka University Dharwad Karnataka India
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Burmistrov DE, Simakin AV, Smirnova VV, Uvarov OV, Ivashkin PI, Kucherov RN, Ivanov VE, Bruskov VI, Sevostyanov MA, Baikin AS, Kozlov VA, Rebezov MB, Semenova AA, Lisitsyn AB, Vedunova MV, Gudkov SV. Bacteriostatic and Cytotoxic Properties of Composite Material Based on ZnO Nanoparticles in PLGA Obtained by Low Temperature Method. Polymers (Basel) 2021; 14:49. [PMID: 35012071 PMCID: PMC8747160 DOI: 10.3390/polym14010049] [Citation(s) in RCA: 7] [Impact Index Per Article: 2.3] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/28/2021] [Revised: 12/13/2021] [Accepted: 12/20/2021] [Indexed: 12/13/2022] Open
Abstract
A low-temperature technology was developed for producing a nanocomposite based on poly (lactic-co-glycolic acid) and zinc oxide nanoparticles (ZnO-NPs), synthesized by laser ablation. Nanocomposites were created containing 0.001, 0.01, and 0.1% of zinc oxide nanoparticles with rod-like morphology and a size of 40-70 nm. The surface of the films from the obtained nanomaterial was uniform, without significant defects. Clustering of ZnO-NPs in the PLGA matrix was noted, which increased with an increase in the concentration of the dopant in the polymer. The resulting nanomaterial was capable of generating reactive oxygen species (ROS), such as hydrogen peroxide and hydroxyl radicals. The rate of ROS generation increased with an increase in the concentration of the dopant. It was shown that the synthesized nanocomposite promotes the formation of long-lived reactive protein species, and is also the reason for the appearance of a key biomarker of oxidative stress, 8-oxoguanine, in DNA. The intensity of the process increased with an increase in the concentration of nanoparticles in the matrix. It was found that the nanocomposite exhibits significant bacteriostatic properties, the severity of which depends on the concentration of nanoparticles. In particular, on the surface of the PLGA-ZnO-NPs composite film containing 0.001% nanoparticles, the number of bacterial cells was 50% lower than that of pure PLGA. The surface of the composite is non-toxic to eukaryotic cells and does not interfere with their adhesion, growth, and division. Due to its low cytotoxicity and bacteriostatic properties, this nanocomposite can be used as coatings for packaging in the food industry, additives for textiles, and also as a material for biomedicine.
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Affiliation(s)
- Dmitriy E. Burmistrov
- Prokhorov General Physics Institute of the Russian Academy of Sciences, 38 Vavilova St., 119991 Moscow, Russia; (D.E.B.); (A.V.S.); (V.V.S.); (O.V.U.); (P.I.I.); (R.N.K.); (V.E.I.); (M.B.R.)
| | - Alexander V. Simakin
- Prokhorov General Physics Institute of the Russian Academy of Sciences, 38 Vavilova St., 119991 Moscow, Russia; (D.E.B.); (A.V.S.); (V.V.S.); (O.V.U.); (P.I.I.); (R.N.K.); (V.E.I.); (M.B.R.)
| | - Veronika V. Smirnova
- Prokhorov General Physics Institute of the Russian Academy of Sciences, 38 Vavilova St., 119991 Moscow, Russia; (D.E.B.); (A.V.S.); (V.V.S.); (O.V.U.); (P.I.I.); (R.N.K.); (V.E.I.); (M.B.R.)
| | - Oleg V. Uvarov
- Prokhorov General Physics Institute of the Russian Academy of Sciences, 38 Vavilova St., 119991 Moscow, Russia; (D.E.B.); (A.V.S.); (V.V.S.); (O.V.U.); (P.I.I.); (R.N.K.); (V.E.I.); (M.B.R.)
| | - Petr I. Ivashkin
- Prokhorov General Physics Institute of the Russian Academy of Sciences, 38 Vavilova St., 119991 Moscow, Russia; (D.E.B.); (A.V.S.); (V.V.S.); (O.V.U.); (P.I.I.); (R.N.K.); (V.E.I.); (M.B.R.)
| | - Roman N. Kucherov
- Prokhorov General Physics Institute of the Russian Academy of Sciences, 38 Vavilova St., 119991 Moscow, Russia; (D.E.B.); (A.V.S.); (V.V.S.); (O.V.U.); (P.I.I.); (R.N.K.); (V.E.I.); (M.B.R.)
- Moscow Engineering Physics Institute, National Research Nuclear University MEPhI, Kashirskoe Highway 31, 115409 Moscow, Russia
| | - Vladimir E. Ivanov
- Prokhorov General Physics Institute of the Russian Academy of Sciences, 38 Vavilova St., 119991 Moscow, Russia; (D.E.B.); (A.V.S.); (V.V.S.); (O.V.U.); (P.I.I.); (R.N.K.); (V.E.I.); (M.B.R.)
- Institute of Theoretical and Experimental Biophysics of the Russian Academy of Sciences, 3 Institutskaya St., 142290 Pushchino, Russia;
| | - Vadim I. Bruskov
- Institute of Theoretical and Experimental Biophysics of the Russian Academy of Sciences, 3 Institutskaya St., 142290 Pushchino, Russia;
| | - Mihail A. Sevostyanov
- A. A. Baikov Institute of Metallurgy and Materials Science of the Russian Academy of Sciences, Leninsky Prospect 49, 119991 Moscow, Russia; (M.A.S.); (A.S.B.)
| | - Alexander S. Baikin
- A. A. Baikov Institute of Metallurgy and Materials Science of the Russian Academy of Sciences, Leninsky Prospect 49, 119991 Moscow, Russia; (M.A.S.); (A.S.B.)
| | - Valery A. Kozlov
- Faculty of Fundamental Sciences, Bauman Moscow State Technical University, Vtoraya Baumanskaya Ul. 5, 105005 Moscow, Russia;
| | - Maksim B. Rebezov
- Prokhorov General Physics Institute of the Russian Academy of Sciences, 38 Vavilova St., 119991 Moscow, Russia; (D.E.B.); (A.V.S.); (V.V.S.); (O.V.U.); (P.I.I.); (R.N.K.); (V.E.I.); (M.B.R.)
- V. M. Gorbatov Federal Research Center for Food Systems of the Russian Academy of Sciences, 109316 Moscow, Russia; (A.A.S.); (A.B.L.)
| | - Anastasia A. Semenova
- V. M. Gorbatov Federal Research Center for Food Systems of the Russian Academy of Sciences, 109316 Moscow, Russia; (A.A.S.); (A.B.L.)
| | - Andrey B. Lisitsyn
- V. M. Gorbatov Federal Research Center for Food Systems of the Russian Academy of Sciences, 109316 Moscow, Russia; (A.A.S.); (A.B.L.)
| | - Maria V. Vedunova
- Institute of Biology and Biomedicine, Lobachevsky State University of Nizhni Novgorod, 23 Prospekt Gagarina, 603950 Nizhny Novgorod, Russia;
| | - Sergey V. Gudkov
- Prokhorov General Physics Institute of the Russian Academy of Sciences, 38 Vavilova St., 119991 Moscow, Russia; (D.E.B.); (A.V.S.); (V.V.S.); (O.V.U.); (P.I.I.); (R.N.K.); (V.E.I.); (M.B.R.)
- Institute of Biology and Biomedicine, Lobachevsky State University of Nizhni Novgorod, 23 Prospekt Gagarina, 603950 Nizhny Novgorod, Russia;
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Nguyen TT, Huynh Nguyen TT, Tran Pham BT, Van Tran T, Bach LG, Bui Thi PQ, Ha Thuc C. Development of poly (vinyl alcohol)/agar/maltodextrin coating containing silver nanoparticles for banana (Musa acuminate) preservation. Food Packag Shelf Life 2021. [DOI: 10.1016/j.fpsl.2021.100740] [Citation(s) in RCA: 5] [Impact Index Per Article: 1.7] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 10/20/2022]
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Meher MK, Poluri KM. Anticoagulation and antibacterial properties of heparinized nanosilver with different morphologies. Carbohydr Polym 2021; 266:118124. [PMID: 34044940 DOI: 10.1016/j.carbpol.2021.118124] [Citation(s) in RCA: 10] [Impact Index Per Article: 3.3] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/03/2020] [Revised: 04/14/2021] [Accepted: 04/25/2021] [Indexed: 01/05/2023]
Abstract
Synthesis and characterization of nanoparticles with different morphologies coupled to minimal chemical interventions for sustainable applications is one of the contemporary topics in the field of nanotechnology. In the current study, heparinized silver nanoparticles were synthesized using a chemical reduction method. Different concentrations of heparin were used to investigate its role in the stability and morphological properties of silver nanoparticles. Interestingly, it has been observed that the concentration of the stabilizing agent heparin plays a pivotal role in dictating the size and shape of the nanosilver. As visualized under a transmission electron microscope, nanosilver with different morphological states such as triangles, truncated triangles, hexagon, and spheres has been experimentally trapped. Such modular property of heparin coated nanosilver has also exhibited substantial differences in their anticoagulation and antimicrobial activities.
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Affiliation(s)
- Mukesh Kumar Meher
- Department of Biotechnology, Indian Institute of Technology Roorkee (IIT-Roorkee), Roorkee 247667, Uttarakhand, India
| | - Krishna Mohan Poluri
- Department of Biotechnology, Indian Institute of Technology Roorkee (IIT-Roorkee), Roorkee 247667, Uttarakhand, India; Centre for Nanotechnology, Indian Institute of Technology Roorkee (IIT-Roorkee), Roorkee 247667, Uttarakhand, India.
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