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Fe3O4@HA@Ag nanokompozitlerin hazırlanması, PVP ile nanolif üretimi ve karakterizasyonu

Yıl 2021, Cilt: 27 Sayı: 7, 794 - 799, 31.12.2021

Öz

Manyetit (Fe3O4), Hümik Asit (HA) ve Gümüş (Ag) önemli özelliklere sahip malzemelerdir. Bu malzemelerin özelliklerini taşıyacak tek bir malzeme sentezlenmesi ve kullanılması bazı uygulama alanları için önemli ölçüde avantaj sağlayabilecektir. Bu çalışmada, sentezlenen Fe3O4@HA@Ag, %5, %7.5 ve %10 ağırlık oranlarında polivinilpirolidon (PVP) içerisine katkılandırılarak elektrospinning yöntemi ile nanolif üretimi gerçekleştirilmiştir. Üretilen nanolifli yapıların yapısal özellikleri X-ışını Kırınımı (XRD) ile morfolojik özellikleri Taramalı Elektron Mikroskobu (SEM) ile spektroskopik ve termal karakterizasyonları da Fourier dönüşümü kızılötesi (FTIR) ve Termogravimetrik Analiz (TGA) ile incelenmiştir. Nanoliflere ait analiz sonuçları değerlendirildiğinde, Fe3O4@HA@Ag katkılı PVP nanoliflerin başarılı bir şekilde üretildiği tespit edilmiştir.

Kaynakça

  • [1] Moriarty P. “Nanostructured materials”. Reports on Progress in Physics, 64(3), 297-381, 2001.
  • [2] Touseef Amna M, Shamshi H, HoaVan B. “Electrospun Fe3O4/TiO2 hybrid nanofibers and their in vitro biocompatibility: Prospective matrix for satellite cell adhesion and cultivation”. Materials Science and Engineering C, 2(33), 707-713, 2013.
  • [3] Bhardwaj N, Kundu SC. “Electrospinning: a fascinating fiber fabrication technique”. Biotechnology Advances, 28, 325-347, 2010.
  • [4] Baji A, Mai YW, Wong SC, Abtahi M, Chen P. “Electrospinning of polymernanofibers: effects on oriented morphology, structures and tensile properties”. Composites Science and Technology, 70, 703-718, 2010.
  • [5] İkiz Y. “Effect of Process Parameters on Morphology of Electrospun PVA Nanofibers”, Pamukkale University Journal of Engineering Sciences, 15(3), 363-369, 2009.
  • [6] Aldana J, Lavelle N, Wang Y, Peng X. “Size-Dependent dissociation pH ofthiolate ligands from cadmium chalcogenide nanocrystals”. Journal of American Chemical Society, 127(8), 2496-2504, 2005.
  • [7] Poznyak SK, Osipovich NP, Shavel A, Talapin DV, Gao MY, Eychmuller A, Gaponik N. “Size-Dependent electrochemical behavior of thiol-capped CdTenanocrystals in aqueous solution”. Journal of Physical Chemistry B, 109(3), 1094-1100, 2005.
  • [8] Thenmozhi S, Dharmaraj N, Kadirvelu K, Kim HY. “Electrospun nanofibers: New generation materials for advanced applications”. Materials Science and Engineering B, 217, 36-48, 2017.
  • [9] Çallıoğlu FC, Guler HK. “Production of essential oil-based composite nanofibers by emulsion electrospinning”. Pamukkale University Journal of Engineering Sciences, 26(7), 1178-1185, 2020.
  • [10] Singamaneni S, Bliznyuk VN, Binek C, Tsymbal EY. “Magnetic nanoparticles: recent advances in synthesis, self-assembly and applications”. Journal of Materials Chemical, 21, 16819-16845, 2011.
  • [11] Xie T, Xu L, Liu C. “Synthesis and properties of composite magnetic material SrCoxFe12-xO19(x=0-0.3)”. Powder Technology, 232, 87-92, 2012.
  • [12] An T, Chen J, Nie X, Li G, Zhang H, Nie X, Zhao H, Wong PoK, An T. “Synthesis of carbon nanotube-anatase TiO2 Submicrometer-sized sphere composite photocatalyst for synergistic degradation of gaseous styrene”. ACS Applied Materials, 4, 5988-5996, 2012.
  • [13] Teymourian H, Salimi A, Khezrian S. “Fe3O4 magnetic nanoparticles/reduced graphene oxide nanosheets as a novel electrochemical and bioeletrochemical sensing platform”. Biosensors and Bioelectronics, 49, 1-8, 2013.
  • [14] Zhang B, Du Y, Zhang P, Zhao H, Kang L, Han X, Xu P. “Microwave absorption enhancement of Fe3O4/polyaniline core/shell hybrid microspheres with controlled shell thickness”. Journal of Applied Science, 130, 1909-1916, 2013.
  • [15] Rashad M, Ibrahim I. “Structural, microstructure and magnetic properties of strontium hexaferrite particles synthesised by modified coprecipitation method”. Materials Technology, 27, 308-314, 2012.
  • [16] Frey NA, Peng S, Cheng K, Sun S. “Magnetic nanoparticles: synthesis, functionalization, and applications in bioimaging and magnetic energy storage”. Chemical Society Reviews, 38, 2532-2542, 2009.
  • [17] Amir Md, Güner S, Yıldız A, Baykal A.“Magneto-Optical and catalytic properties of Fe3O4@HA@Ag magnetic nanocomposite”. Journal of Magnetism and Magnetic Materials, 421, 462-471, 2017.
  • [18] Stankus DP, Lohse SE, Hutchison JE, Nason JA. “Interactions between natural organic matter and gold nanoparticles stabilized with different organic capping agents”. Environmental Science Technology, 45(8), 3238-3244, 2011.
  • [19] Maccarthy P. “The principles of humic substances: an introduction to the first principle”. Soil Science, 166(11), 738-751, 2001.
  • [20] Stevenson FJ. Humus Chemistry: Genesis Composition Reactions. 2nd ed. USA, John Wiley & Sons, 1994.
  • [21] Steelink C, Aiken GR, McKnight DM, Wershaw RL, MacCarthy P. Elemental Characteristics of Humic Substances. Editors: Aiken GR, McKnight MD, Wershaw RL, MacCarthy P. Humic Substances in Soil, Sediment and Water: Geochemistry, İsolation and Characterization, 457-476, New York, USA, Wiley-lnterscience, 1985.
  • [22] Sposito G, Weber JH. “Sorption of trace metals by humic materials in soils and natural waters”. Critical Reviews in Environmental Control, 16, 193-229, 2009.
  • [23] Perdue M. Acidic functional groups of humic substances. Editors: Aiken GR, McKnight MD, Wershaw RL, MacCarthy P. Humic Substances in Soil, Sediment and Water: Geochemistry, İsolation and Characterization, 494-526, New York, USA, Wiley-lnterscience, 1985.
  • [24] Chen Y, Stevenson FS. Soil organic matter interactions with trace elements. Editors: Chen Y, Avnimelech Y. The Role of Organic Matter in Modern Agriculture, 73-116, Netherland, Springer, 1986.
  • [25] ChenY. Organic Matter Reactions Involving Micronutrients in Soils and Their Effect on Plants. Editors: Piccolo A.Humic Substances in Terrestrial Ecosystems, 507-529, Oxford UK, Elsevier, 1996.
  • [26] Piccolo A, Nardi S, Concheri G. “Structural characteristics of humic substances as related to nitrate uptake and growth regulation in plant systems”. Soil Biology and Biochemistry, 24(4), 373-380, 1992.
  • [27] Yates LM, Wandruszka RV. “Decontamination of polluted water by treatment with a crude humic acid blend”. Environmental Science and Technology, 33(12), 2076-2080, 1999.
  • [28] Schols D, Wutzler P, Klöcking R, Helbig B, De Clercq E. “Selective inhibitory action of polyhydroxycarboxylates derived from phenolic compounds against human immunodeficiency virus replication”. Journal of Acquired Immune Deficiency Syndromes, 7, 677-685, 1991.
  • [29] Zanetti M. “Treatment of HIV infection with humic acid”. European Patent, EP0670726A1, 1995.
  • [30] Klöcking R, Helbig B. Medical Aspects and Applications of Humic Substance. Editors: Steinbüchel A, Marchessault RH. Biopolymers for Medical and Pharmaceutical Applicaitons, 3-16, Weinheim, WILEY-VCH, 2005.
  • [31] Junek R, Morrow R, Schoenherr JI, Schubert R, Kallmeyer R, Phull S, Klöcking R. “Bimodal effect of humic acids on the LPS-induced TNF-α release from differentiated U937 cells”. Phytomedicine, 16(5), 470-476, 2009.
  • [32] Neyts J, Snoeck R, Wutzler P, Helbig B, Wang P, De Clercq E. “Poly (hydroxy) carboxylates as selective inhibitors of cytomegalovirus and herpes simplex virus replication”. Antiviral Chemistry and Chemotherapy, 3, 215-222, 1992.
  • [33] Melo BAG, Motta FL, Santana MH. “Humic acids: Structural properties and multiple functionalities for novel technological developments”. Materials Science and Engineering: C, 62, 967-974, 2016.
  • [34] Yildiz A, Bayramol DV, Atav R, Ağirgan ÖA, Kurç MA, Ergünay U, Mayer C, Hadimani RL. “Synthesis and characterization of Fe3O4@Cs@Ag nanocomposite and its use in the production of magnetic and antibacterial nanofibrous membrane”. Applied Surface Science, 521, 1-11, 2020.
  • [35] Gong P, Li H, He X, Wang K, Hu J, Tan W, Zhang S, Yang X. “Preparation and antibacterial activity of Fe3O4@Ag nanoparticles”. Nanotechnology, 18(28), 1-7, 2007.
  • [36] Niu H, Zhang D, Zhang S, Zhang X, Meng Z, Cai Y. “Humic acid coated Fe3O4 magnetic nanoparticles as highly efficient Fenton-like catalyst for complete mineralization of sulfathiazole”. Journal of Hazardous Materials, 190, 559-565, 2011.
  • [37] Kamaruddin, Edikresnha D, Sriyanti I, Munir MM, Khairurrijal. “Synthesis of polyvinylpyrrolidone (PVP)- green tea extract composite nanostructures using electrohydrodynamic spraying technique”. IOP Conference Series: Materials Science and Engineering, 202, 1-7, 2017.
  • [38] Amir Md, Kurtan U, Baykal A. “Rapid color degradation of organic dyes by Fe3O4@His@Ag recyclable magnetic nanocatalyst”. Journal of Industrial and Engineering Chemistry, 27, 347-353, 2015.
  • [39] Kurtan U, Onuş E, Amir Md, Baykal A. “Fe3O4@Hpipe4@Cu nanocatalyst for hydrogenation of nitro-aromatics and azo dyes”. Journal of Inorganic and Organometallic Polymers and Materials, 25, 1120-1128, 2015.

Preparation of Fe3O4@HA@Ag nanocomposites, production of nanofiber with PVP and its characterization

Yıl 2021, Cilt: 27 Sayı: 7, 794 - 799, 31.12.2021

Öz

Magnetite (Fe3O4), Humic Acid (HA) and Silver (Ag) are materials with important properties. Synthesizing a single material which will have all the properties of these materials can provide significant advantages for some application areas. In this study, synthesized Fe3O4@HA@Ag was doped into poly(vinyl pyrrolidone) (PVP), in weight ratios of 5%, 7.5% and 10%, and nanofiber production was carried out by electrospinning method. Structural properties of nanofiber structures were investigated by X-ray Diffraction (XRD), morphological properties by Scanning Electron Microscope (SEM), spectroscopic and thermal characterizations by Fourier transform infrared (FTIR) and Thermogravimetric Analysis (TGA). When the analysis results of nanofibers were evaluated, it was determined that Fe3O4@HA@Ag doped PVP nanofibers were successfully produced.

Kaynakça

  • [1] Moriarty P. “Nanostructured materials”. Reports on Progress in Physics, 64(3), 297-381, 2001.
  • [2] Touseef Amna M, Shamshi H, HoaVan B. “Electrospun Fe3O4/TiO2 hybrid nanofibers and their in vitro biocompatibility: Prospective matrix for satellite cell adhesion and cultivation”. Materials Science and Engineering C, 2(33), 707-713, 2013.
  • [3] Bhardwaj N, Kundu SC. “Electrospinning: a fascinating fiber fabrication technique”. Biotechnology Advances, 28, 325-347, 2010.
  • [4] Baji A, Mai YW, Wong SC, Abtahi M, Chen P. “Electrospinning of polymernanofibers: effects on oriented morphology, structures and tensile properties”. Composites Science and Technology, 70, 703-718, 2010.
  • [5] İkiz Y. “Effect of Process Parameters on Morphology of Electrospun PVA Nanofibers”, Pamukkale University Journal of Engineering Sciences, 15(3), 363-369, 2009.
  • [6] Aldana J, Lavelle N, Wang Y, Peng X. “Size-Dependent dissociation pH ofthiolate ligands from cadmium chalcogenide nanocrystals”. Journal of American Chemical Society, 127(8), 2496-2504, 2005.
  • [7] Poznyak SK, Osipovich NP, Shavel A, Talapin DV, Gao MY, Eychmuller A, Gaponik N. “Size-Dependent electrochemical behavior of thiol-capped CdTenanocrystals in aqueous solution”. Journal of Physical Chemistry B, 109(3), 1094-1100, 2005.
  • [8] Thenmozhi S, Dharmaraj N, Kadirvelu K, Kim HY. “Electrospun nanofibers: New generation materials for advanced applications”. Materials Science and Engineering B, 217, 36-48, 2017.
  • [9] Çallıoğlu FC, Guler HK. “Production of essential oil-based composite nanofibers by emulsion electrospinning”. Pamukkale University Journal of Engineering Sciences, 26(7), 1178-1185, 2020.
  • [10] Singamaneni S, Bliznyuk VN, Binek C, Tsymbal EY. “Magnetic nanoparticles: recent advances in synthesis, self-assembly and applications”. Journal of Materials Chemical, 21, 16819-16845, 2011.
  • [11] Xie T, Xu L, Liu C. “Synthesis and properties of composite magnetic material SrCoxFe12-xO19(x=0-0.3)”. Powder Technology, 232, 87-92, 2012.
  • [12] An T, Chen J, Nie X, Li G, Zhang H, Nie X, Zhao H, Wong PoK, An T. “Synthesis of carbon nanotube-anatase TiO2 Submicrometer-sized sphere composite photocatalyst for synergistic degradation of gaseous styrene”. ACS Applied Materials, 4, 5988-5996, 2012.
  • [13] Teymourian H, Salimi A, Khezrian S. “Fe3O4 magnetic nanoparticles/reduced graphene oxide nanosheets as a novel electrochemical and bioeletrochemical sensing platform”. Biosensors and Bioelectronics, 49, 1-8, 2013.
  • [14] Zhang B, Du Y, Zhang P, Zhao H, Kang L, Han X, Xu P. “Microwave absorption enhancement of Fe3O4/polyaniline core/shell hybrid microspheres with controlled shell thickness”. Journal of Applied Science, 130, 1909-1916, 2013.
  • [15] Rashad M, Ibrahim I. “Structural, microstructure and magnetic properties of strontium hexaferrite particles synthesised by modified coprecipitation method”. Materials Technology, 27, 308-314, 2012.
  • [16] Frey NA, Peng S, Cheng K, Sun S. “Magnetic nanoparticles: synthesis, functionalization, and applications in bioimaging and magnetic energy storage”. Chemical Society Reviews, 38, 2532-2542, 2009.
  • [17] Amir Md, Güner S, Yıldız A, Baykal A.“Magneto-Optical and catalytic properties of Fe3O4@HA@Ag magnetic nanocomposite”. Journal of Magnetism and Magnetic Materials, 421, 462-471, 2017.
  • [18] Stankus DP, Lohse SE, Hutchison JE, Nason JA. “Interactions between natural organic matter and gold nanoparticles stabilized with different organic capping agents”. Environmental Science Technology, 45(8), 3238-3244, 2011.
  • [19] Maccarthy P. “The principles of humic substances: an introduction to the first principle”. Soil Science, 166(11), 738-751, 2001.
  • [20] Stevenson FJ. Humus Chemistry: Genesis Composition Reactions. 2nd ed. USA, John Wiley & Sons, 1994.
  • [21] Steelink C, Aiken GR, McKnight DM, Wershaw RL, MacCarthy P. Elemental Characteristics of Humic Substances. Editors: Aiken GR, McKnight MD, Wershaw RL, MacCarthy P. Humic Substances in Soil, Sediment and Water: Geochemistry, İsolation and Characterization, 457-476, New York, USA, Wiley-lnterscience, 1985.
  • [22] Sposito G, Weber JH. “Sorption of trace metals by humic materials in soils and natural waters”. Critical Reviews in Environmental Control, 16, 193-229, 2009.
  • [23] Perdue M. Acidic functional groups of humic substances. Editors: Aiken GR, McKnight MD, Wershaw RL, MacCarthy P. Humic Substances in Soil, Sediment and Water: Geochemistry, İsolation and Characterization, 494-526, New York, USA, Wiley-lnterscience, 1985.
  • [24] Chen Y, Stevenson FS. Soil organic matter interactions with trace elements. Editors: Chen Y, Avnimelech Y. The Role of Organic Matter in Modern Agriculture, 73-116, Netherland, Springer, 1986.
  • [25] ChenY. Organic Matter Reactions Involving Micronutrients in Soils and Their Effect on Plants. Editors: Piccolo A.Humic Substances in Terrestrial Ecosystems, 507-529, Oxford UK, Elsevier, 1996.
  • [26] Piccolo A, Nardi S, Concheri G. “Structural characteristics of humic substances as related to nitrate uptake and growth regulation in plant systems”. Soil Biology and Biochemistry, 24(4), 373-380, 1992.
  • [27] Yates LM, Wandruszka RV. “Decontamination of polluted water by treatment with a crude humic acid blend”. Environmental Science and Technology, 33(12), 2076-2080, 1999.
  • [28] Schols D, Wutzler P, Klöcking R, Helbig B, De Clercq E. “Selective inhibitory action of polyhydroxycarboxylates derived from phenolic compounds against human immunodeficiency virus replication”. Journal of Acquired Immune Deficiency Syndromes, 7, 677-685, 1991.
  • [29] Zanetti M. “Treatment of HIV infection with humic acid”. European Patent, EP0670726A1, 1995.
  • [30] Klöcking R, Helbig B. Medical Aspects and Applications of Humic Substance. Editors: Steinbüchel A, Marchessault RH. Biopolymers for Medical and Pharmaceutical Applicaitons, 3-16, Weinheim, WILEY-VCH, 2005.
  • [31] Junek R, Morrow R, Schoenherr JI, Schubert R, Kallmeyer R, Phull S, Klöcking R. “Bimodal effect of humic acids on the LPS-induced TNF-α release from differentiated U937 cells”. Phytomedicine, 16(5), 470-476, 2009.
  • [32] Neyts J, Snoeck R, Wutzler P, Helbig B, Wang P, De Clercq E. “Poly (hydroxy) carboxylates as selective inhibitors of cytomegalovirus and herpes simplex virus replication”. Antiviral Chemistry and Chemotherapy, 3, 215-222, 1992.
  • [33] Melo BAG, Motta FL, Santana MH. “Humic acids: Structural properties and multiple functionalities for novel technological developments”. Materials Science and Engineering: C, 62, 967-974, 2016.
  • [34] Yildiz A, Bayramol DV, Atav R, Ağirgan ÖA, Kurç MA, Ergünay U, Mayer C, Hadimani RL. “Synthesis and characterization of Fe3O4@Cs@Ag nanocomposite and its use in the production of magnetic and antibacterial nanofibrous membrane”. Applied Surface Science, 521, 1-11, 2020.
  • [35] Gong P, Li H, He X, Wang K, Hu J, Tan W, Zhang S, Yang X. “Preparation and antibacterial activity of Fe3O4@Ag nanoparticles”. Nanotechnology, 18(28), 1-7, 2007.
  • [36] Niu H, Zhang D, Zhang S, Zhang X, Meng Z, Cai Y. “Humic acid coated Fe3O4 magnetic nanoparticles as highly efficient Fenton-like catalyst for complete mineralization of sulfathiazole”. Journal of Hazardous Materials, 190, 559-565, 2011.
  • [37] Kamaruddin, Edikresnha D, Sriyanti I, Munir MM, Khairurrijal. “Synthesis of polyvinylpyrrolidone (PVP)- green tea extract composite nanostructures using electrohydrodynamic spraying technique”. IOP Conference Series: Materials Science and Engineering, 202, 1-7, 2017.
  • [38] Amir Md, Kurtan U, Baykal A. “Rapid color degradation of organic dyes by Fe3O4@His@Ag recyclable magnetic nanocatalyst”. Journal of Industrial and Engineering Chemistry, 27, 347-353, 2015.
  • [39] Kurtan U, Onuş E, Amir Md, Baykal A. “Fe3O4@Hpipe4@Cu nanocatalyst for hydrogenation of nitro-aromatics and azo dyes”. Journal of Inorganic and Organometallic Polymers and Materials, 25, 1120-1128, 2015.
Toplam 39 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Kimya Müh. / Tekstil Müh. / Gıda Müh.
Yazarlar

Aylin Yıldız Bu kişi benim

Cumali Demir Bu kişi benim

Derman Vatansever Bayramol Bu kişi benim

Ahmet Özgür Ağırgan Bu kişi benim

Yayımlanma Tarihi 31 Aralık 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 27 Sayı: 7

Kaynak Göster

APA Yıldız, A., Demir, C., Bayramol, D. V., Ağırgan, A. Ö. (2021). Fe3O4@HA@Ag nanokompozitlerin hazırlanması, PVP ile nanolif üretimi ve karakterizasyonu. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 27(7), 794-799.
AMA Yıldız A, Demir C, Bayramol DV, Ağırgan AÖ. Fe3O4@HA@Ag nanokompozitlerin hazırlanması, PVP ile nanolif üretimi ve karakterizasyonu. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. Aralık 2021;27(7):794-799.
Chicago Yıldız, Aylin, Cumali Demir, Derman Vatansever Bayramol, ve Ahmet Özgür Ağırgan. “Fe3O4@HA@Ag Nanokompozitlerin hazırlanması, PVP Ile Nanolif üretimi Ve Karakterizasyonu”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 27, sy. 7 (Aralık 2021): 794-99.
EndNote Yıldız A, Demir C, Bayramol DV, Ağırgan AÖ (01 Aralık 2021) Fe3O4@HA@Ag nanokompozitlerin hazırlanması, PVP ile nanolif üretimi ve karakterizasyonu. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 27 7 794–799.
IEEE A. Yıldız, C. Demir, D. V. Bayramol, ve A. Ö. Ağırgan, “Fe3O4@HA@Ag nanokompozitlerin hazırlanması, PVP ile nanolif üretimi ve karakterizasyonu”, Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, c. 27, sy. 7, ss. 794–799, 2021.
ISNAD Yıldız, Aylin vd. “Fe3O4@HA@Ag Nanokompozitlerin hazırlanması, PVP Ile Nanolif üretimi Ve Karakterizasyonu”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 27/7 (Aralık 2021), 794-799.
JAMA Yıldız A, Demir C, Bayramol DV, Ağırgan AÖ. Fe3O4@HA@Ag nanokompozitlerin hazırlanması, PVP ile nanolif üretimi ve karakterizasyonu. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2021;27:794–799.
MLA Yıldız, Aylin vd. “Fe3O4@HA@Ag Nanokompozitlerin hazırlanması, PVP Ile Nanolif üretimi Ve Karakterizasyonu”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, c. 27, sy. 7, 2021, ss. 794-9.
Vancouver Yıldız A, Demir C, Bayramol DV, Ağırgan AÖ. Fe3O4@HA@Ag nanokompozitlerin hazırlanması, PVP ile nanolif üretimi ve karakterizasyonu. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2021;27(7):794-9.





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