BibTex RIS Kaynak Göster

Synthesis of Copper Nanoparticles Using a Different Method: Determination of Its Antioxidant and Antimicrobial Activity

Yıl 2016, Cilt: 3 Sayı: 3, 623 - 636, 08.01.2017

Demet Demirci Gültekin Azize Alaylı Güngör Hicran Önem Aynur Babagil Hayrünnisa Nadaroğlu

https://doi.org/10.18596/jotcsa.287299
Cited By: 28

Öz

In this study, it was aimed to obtain copper oxide nanoparticles (CuO NPs) with the method of green synthesis by using peroxidase enzymes which were partly purified from fig (Ficus carica). Copper (II) oxide nanoparticles are successfully synthesized with the green synthesis method on the experiments we performed.  UV-VIS spectroscopy of the characterization of acquired CuO NPs were performed with Scanning Electron Microscopy (SEM) and X-ray Diffraction (XRD). Optimum activation temperature for green synthesis was observed to be in 30 min, pH:8, at 25 oC and in the concentration of 1mM CuCl2. By using peroxidase enzymes with green synthesis, it was found out the results of SEM and XRD measurements that acquired CuO NPs were in the size of 50-120 nm. Afterwards, the antioxidant and antibacterial activities of these nanoparticles were measured and it was understood from the obtained results that CuO NPs had both antioxidant and antimicrobial activities.

Kaynakça

  • Hutchison JE. Greener Nanoscience: A Proactive Approach to Advancing Applications and Reducing Implications of Nanotechnology. ACS Nano. 2008 Mar;2(3):395–402.
  • Sharma VR, Yngard RA, Lin L. Silver Nanoparticles: Green Synthesis and Their Antimicrobial Activities. Adv. Colloid. Interface Sci. 2009 Jan 30;145(1-2):83-96.
  • Junjie H. Biosynthesis of SnO2 Nanoparticles by Fig (Ficus Carica) Leaf Extract for Electrochemically Determining Hg(II) in Water Samples Int. J. Electrochem. Sci. 2015 Nov;10:10668–10676.
  • Liu FK. Analysis and Applications of Nanoparticles in the Separation Sciences: a Case of Gold Nanoparticles. Journal of Chromatography A. 2009 Dec;1216(52):9034–9047.
  • Singh DJ, Upadhya MK, Nandelwal NK. Green Synthesis Of Silver Nanoparticles Using Argemonemexicana Leaf Extract And Evaluation Of Their Antimicrobial Activities. Digest Journal of Nanomaterials and Biostructures. 2010 July-Sept;5:483-489.
  • Prasoon PS, Chittaranjan B. Green Synthesis Of Silver And Gold Nanoparticles And Its Applications. International Journal of Applied Engineering Research. 2012 Jun;2(5):1-4.
  • Konishi Y, Ohno K, Saitoh N, Nomura T, Nagamine S, Hishida H, Takahashi Y, Uruga T. Bioreductive deposition of Platinum Nanoparticles on the Bacterium Shewanella algae. J. Biotechnol. 2007 Jun;128(3):648-653.
  • Das SK, Dickinson CF, Lafir DF, Broughamand EM. Synthesis, Characterization and Catalytic Activity of Gold Nanoparticles Biosynthesized with Rhizopus Oryzae Protein Extract Green Chemistry. 2012 Feb;14:1322-1334.
  • Abdul Salam HR, Sivarajand R, Venckatesh R. Green Synthesis and Characterization of Zinc Oxide Nanoparticles from Ocimum Basilicum L. Var. Purpurascens Benth.-Lamiaceae Leaf Extract. Materials Letters. 2014 Sept 131(15): 16-18.
  • Park BK, Jeong S, Kim D, Moon J, Lim S, Kim JS. Synthesis and Size Control of Monodisperse Copper Nanoparticles by Polyol Method. Journal of Colloids and Interface Science. 2007 Mar; 311(2):417-424.
  • Han WK, Choi JW, Hwang GH, Hong SJ, Lee JS, Kang SG. Fabrication of Cu Nano Particles by Direct Electrochemical Reduction from Cuo Nano Particles. Applied Surface Science. 2006 Feb;252(8):2832-2838.
  • Zhu HT, Zhang CY, Yin YS. Rapid Synthesis of Copper Nanoparticles by Sodium Hypophosphite Reduction ın Ethylene Glycol under Microwave İrradiation. Journal of Crystal Growth. 2004 Oct;270(3-4):722-728.
  • Tetsuya K, Oka T, Nagano M, Ishiwata Y, Zheng XG. Synthesis and Application of Stable Copper Oxide Nanoparticle Suspensions for Nanoparticulate Film Fabrication. J. Am. Ceram. Soc. 2007 Jun; 90(1):107–110.
  • Etefagh R, Azhir E, Shahtahmasebi N. Synthesis of Cuo Nanoparticles and Fabrication of Nanostructural Layer Biosensors for Detecting Aspergillus niger Fungi. Scientia Iranica. 2013 Jun; 20(3):1055–1058.
  • Phiwdang K, Suphankij S, Mekprasart W, Pecharapa W. Synthesis of CuO Nanoparticles by Precipitation Method Using Different Precursors. Energy Procedia. 2013 June;34:740-745.
  • Khashan KS, Sulaiman GM, Abdulameer FA. Synthesis and Antibacterial Activity of CuO Nanoparticles Suspension Induced by Laser Ablation in Liquid. Arab J Sci Eng. 2016 Jun 41:301–310.
  • Cicek S, Gungor AA, Adiguzel A, Nadaroglu H. Biochemical Evaluation and Green Synthesis of Nano Silver Using Peroxidase from Euphorbia (Euphorbia amygdaloides) and Its Antibacterial Activity. Journal of Chemistry. 2015 Agust; Article ID: 486948, 1-7. URL: http : //dx.doi.org/10.1155/2015/486948.
  • Gungor AA. Use of Different Plant Derived Peroxidases for the Removal of Phenol from Water. Asian Journal of Chemistry. 2011 Jun;23(8):3710-3712.
  • Sharma S, Manhar AK, Bora PJ, Dolui KS, Mandal M. Plasmonic Bulk Heterojunction Photovoltaic Devices Based on Poly (9-Vinylcarbazole)/Gold Nanocomposites: Effect of Aspect Ratio of Gold Nanorod. Journal of Materials Science: Materials in Electronics. 2015;Jul26(7):5465-5474.
  • Abdel-Aziz MS, Shaheen MS, El-Nekeety AA, Abdel-Wahhab MA. Antioxidant and Antibacterial Activity of Silver Nanoparticles Biosynthesized Using Chenopodium Murale Leaf Extract. Journal of Saudi Chemical Society. 2014 Sept; 18(4): 356–363.
  • Nasrollahzadeh M, Sajadi SM, Vartooni AR. Green synthesis of palladium nanoparticles using Hippophae rhamnoides Linn leaf extract and their catalytic activity for the Suzuki–Miyaura coupling in water. Journal of Molecular Catalysis A: Chemical. 2015 Jun;396:297–303.
  • Halliwell B. Establishing the Significance and Optimal Intake of Dietary Antioxidants: The Biomarker Concept. Nutr Rev. 1999 Apr; 57(4):104–113.
  • Miller NJ, Sampson J, Candeias LP, Bramley PM. Catherine A. Rice-Evans Antioxidant activities of Carotenes and Xanthophylls. FEBS Letters. 1996 Apr;384( 3):240–242.
  • Ruparelia JP, Chatterjee AK, Duttagupta SP, Mukherji S. Strain Specificity in Antimicrobial Activity of Silver and Copper Nanoparticles. Acta Biomaterialia. 2008 May;4(3):707-716.

Yıl 2016, Cilt: 3 Sayı: 3, 623 - 636, 08.01.2017

Demet Demirci Gültekin Azize Alaylı Güngör Hicran Önem Aynur Babagil Hayrünnisa Nadaroğlu

https://doi.org/10.18596/jotcsa.287299
Cited By: 28

Öz

Kaynakça

  • Hutchison JE. Greener Nanoscience: A Proactive Approach to Advancing Applications and Reducing Implications of Nanotechnology. ACS Nano. 2008 Mar;2(3):395–402.
  • Sharma VR, Yngard RA, Lin L. Silver Nanoparticles: Green Synthesis and Their Antimicrobial Activities. Adv. Colloid. Interface Sci. 2009 Jan 30;145(1-2):83-96.
  • Junjie H. Biosynthesis of SnO2 Nanoparticles by Fig (Ficus Carica) Leaf Extract for Electrochemically Determining Hg(II) in Water Samples Int. J. Electrochem. Sci. 2015 Nov;10:10668–10676.
  • Liu FK. Analysis and Applications of Nanoparticles in the Separation Sciences: a Case of Gold Nanoparticles. Journal of Chromatography A. 2009 Dec;1216(52):9034–9047.
  • Singh DJ, Upadhya MK, Nandelwal NK. Green Synthesis Of Silver Nanoparticles Using Argemonemexicana Leaf Extract And Evaluation Of Their Antimicrobial Activities. Digest Journal of Nanomaterials and Biostructures. 2010 July-Sept;5:483-489.
  • Prasoon PS, Chittaranjan B. Green Synthesis Of Silver And Gold Nanoparticles And Its Applications. International Journal of Applied Engineering Research. 2012 Jun;2(5):1-4.
  • Konishi Y, Ohno K, Saitoh N, Nomura T, Nagamine S, Hishida H, Takahashi Y, Uruga T. Bioreductive deposition of Platinum Nanoparticles on the Bacterium Shewanella algae. J. Biotechnol. 2007 Jun;128(3):648-653.
  • Das SK, Dickinson CF, Lafir DF, Broughamand EM. Synthesis, Characterization and Catalytic Activity of Gold Nanoparticles Biosynthesized with Rhizopus Oryzae Protein Extract Green Chemistry. 2012 Feb;14:1322-1334.
  • Abdul Salam HR, Sivarajand R, Venckatesh R. Green Synthesis and Characterization of Zinc Oxide Nanoparticles from Ocimum Basilicum L. Var. Purpurascens Benth.-Lamiaceae Leaf Extract. Materials Letters. 2014 Sept 131(15): 16-18.
  • Park BK, Jeong S, Kim D, Moon J, Lim S, Kim JS. Synthesis and Size Control of Monodisperse Copper Nanoparticles by Polyol Method. Journal of Colloids and Interface Science. 2007 Mar; 311(2):417-424.
  • Han WK, Choi JW, Hwang GH, Hong SJ, Lee JS, Kang SG. Fabrication of Cu Nano Particles by Direct Electrochemical Reduction from Cuo Nano Particles. Applied Surface Science. 2006 Feb;252(8):2832-2838.
  • Zhu HT, Zhang CY, Yin YS. Rapid Synthesis of Copper Nanoparticles by Sodium Hypophosphite Reduction ın Ethylene Glycol under Microwave İrradiation. Journal of Crystal Growth. 2004 Oct;270(3-4):722-728.
  • Tetsuya K, Oka T, Nagano M, Ishiwata Y, Zheng XG. Synthesis and Application of Stable Copper Oxide Nanoparticle Suspensions for Nanoparticulate Film Fabrication. J. Am. Ceram. Soc. 2007 Jun; 90(1):107–110.
  • Etefagh R, Azhir E, Shahtahmasebi N. Synthesis of Cuo Nanoparticles and Fabrication of Nanostructural Layer Biosensors for Detecting Aspergillus niger Fungi. Scientia Iranica. 2013 Jun; 20(3):1055–1058.
  • Phiwdang K, Suphankij S, Mekprasart W, Pecharapa W. Synthesis of CuO Nanoparticles by Precipitation Method Using Different Precursors. Energy Procedia. 2013 June;34:740-745.
  • Khashan KS, Sulaiman GM, Abdulameer FA. Synthesis and Antibacterial Activity of CuO Nanoparticles Suspension Induced by Laser Ablation in Liquid. Arab J Sci Eng. 2016 Jun 41:301–310.
  • Cicek S, Gungor AA, Adiguzel A, Nadaroglu H. Biochemical Evaluation and Green Synthesis of Nano Silver Using Peroxidase from Euphorbia (Euphorbia amygdaloides) and Its Antibacterial Activity. Journal of Chemistry. 2015 Agust; Article ID: 486948, 1-7. URL: http : //dx.doi.org/10.1155/2015/486948.
  • Gungor AA. Use of Different Plant Derived Peroxidases for the Removal of Phenol from Water. Asian Journal of Chemistry. 2011 Jun;23(8):3710-3712.
  • Sharma S, Manhar AK, Bora PJ, Dolui KS, Mandal M. Plasmonic Bulk Heterojunction Photovoltaic Devices Based on Poly (9-Vinylcarbazole)/Gold Nanocomposites: Effect of Aspect Ratio of Gold Nanorod. Journal of Materials Science: Materials in Electronics. 2015;Jul26(7):5465-5474.
  • Abdel-Aziz MS, Shaheen MS, El-Nekeety AA, Abdel-Wahhab MA. Antioxidant and Antibacterial Activity of Silver Nanoparticles Biosynthesized Using Chenopodium Murale Leaf Extract. Journal of Saudi Chemical Society. 2014 Sept; 18(4): 356–363.
  • Nasrollahzadeh M, Sajadi SM, Vartooni AR. Green synthesis of palladium nanoparticles using Hippophae rhamnoides Linn leaf extract and their catalytic activity for the Suzuki–Miyaura coupling in water. Journal of Molecular Catalysis A: Chemical. 2015 Jun;396:297–303.
  • Halliwell B. Establishing the Significance and Optimal Intake of Dietary Antioxidants: The Biomarker Concept. Nutr Rev. 1999 Apr; 57(4):104–113.
  • Miller NJ, Sampson J, Candeias LP, Bramley PM. Catherine A. Rice-Evans Antioxidant activities of Carotenes and Xanthophylls. FEBS Letters. 1996 Apr;384( 3):240–242.
  • Ruparelia JP, Chatterjee AK, Duttagupta SP, Mukherji S. Strain Specificity in Antimicrobial Activity of Silver and Copper Nanoparticles. Acta Biomaterialia. 2008 May;4(3):707-716.
Toplam 24 adet kaynakça vardır.

Ayrıntılar

Bölüm Makaleler
Yazarlar

Demet Demirci Gültekin

Azize Alaylı Güngör

Hicran Önem Bu kişi benim

Aynur Babagil Bu kişi benim

Hayrünnisa Nadaroğlu

Yayımlanma Tarihi 8 Ocak 2017
Gönderilme Tarihi 22 Temmuz 2016
Yayımlandığı Sayı Yıl 2016 Cilt: 3 Sayı: 3

Kaynak Göster

Vancouver Demirci Gültekin D, Alaylı Güngör A, Önem H, Babagil A, Nadaroğlu H. Synthesis of Copper Nanoparticles Using a Different Method: Determination of Its Antioxidant and Antimicrobial Activity. JOTCSA. 2017;3(3):623-36.

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