Nanomateriales, Nanopartículas y Síntesis verde

Autores:
Gómez-Garzón, Martha
Tipo de recurso:
Article of journal
Fecha de publicación:
2018
Institución:
Fundación Universitaria de Ciencias de la Salud - FUCS
Repositorio:
Repositorio Digital Institucional ReDi
Idioma:
spa
OAI Identifier:
oai:repositorio.fucsalud.edu.co:001/2121
Acceso en línea:
https://repositorio.fucsalud.edu.co/handle/001/2121
https://doi.org/10.31260/RepertMedCir.v27.n2.2018.191
Palabra clave:
Nanopartículas
Síntesis verde
Nanoparticles
Green synthesis
Rights
openAccess
License
Fundación Universitaria de Ciencias de la Salud - FUCS - 2018
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network_acronym_str FUCS2
network_name_str Repositorio Digital Institucional ReDi
repository_id_str
dc.title.spa.fl_str_mv Nanomateriales, Nanopartículas y Síntesis verde
dc.title.translated.eng.fl_str_mv Nanomaterials, Nanoparticles and Green Synthesis
title Nanomateriales, Nanopartículas y Síntesis verde
spellingShingle Nanomateriales, Nanopartículas y Síntesis verde
Nanopartículas
Síntesis verde
Nanoparticles
Green synthesis
title_short Nanomateriales, Nanopartículas y Síntesis verde
title_full Nanomateriales, Nanopartículas y Síntesis verde
title_fullStr Nanomateriales, Nanopartículas y Síntesis verde
title_full_unstemmed Nanomateriales, Nanopartículas y Síntesis verde
title_sort Nanomateriales, Nanopartículas y Síntesis verde
dc.creator.fl_str_mv Gómez-Garzón, Martha
dc.contributor.author.spa.fl_str_mv Gómez-Garzón, Martha
dc.subject.spa.fl_str_mv Nanopartículas
Síntesis verde
topic Nanopartículas
Síntesis verde
Nanoparticles
Green synthesis
dc.subject.eng.fl_str_mv Nanoparticles
Green synthesis
publishDate 2018
dc.date.accessioned.none.fl_str_mv 2018-08-15 00:00:00
2022-02-21T20:34:22Z
dc.date.issued.none.fl_str_mv 2018-08-15
dc.date.available.none.fl_str_mv 2018-08-15 00:00:00
2022-02-21T20:34:22Z
dc.type.spa.fl_str_mv Artículo de revista
dc.type.eng.fl_str_mv Journal article
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dc.identifier.eissn.none.fl_str_mv 2462-991X
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url https://repositorio.fucsalud.edu.co/handle/001/2121
https://doi.org/10.31260/RepertMedCir.v27.n2.2018.191
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dc.relation.references.spa.fl_str_mv Dos Santos CA, Seckler MM, Ingle AP, Gupta I, Galdiero S, Galdiero M, et al. Silver nanoparticles: therapeutical uses, toxicity, and safety issues. Journal of pharmaceutical sciences. 2014;103(7):1931-44. Epub 2014/05/16. 2. Calderon-Jimenez B, Johnson ME, Montoro Bustos AR, Murphy KE, Winchester MR, Vega Baudrit JR. Silver Nanoparticles: Technological Advances, Societal Impacts, and Metrological Challenges. Frontiers in chemistry. 2017;5:6. Epub 2017/03/09. 3. Calle Kantuta GN. NANOTECNOLOGIA CONCEPTOS GENERALES. Revista de Información, Tecnología y Sociedad. 2010:7-9. 4. Chaloupka K, Malam Y, Seifalian AM. Nanosilver as a new generation of nanoproduct in biomedical applications. Trends in biotechnology. 2010;28(11):580-8. Epub 2010/08/21. 5. Hajipour MJ, Fromm KM, Ashkarran AA, Jimenez de Aberasturi D, de Larramendi IR, Rojo T, et al. Antibacterial properties of nanoparticles. Trends in biotechnology. 2012;30(10):499-511. Epub 2012/08/14. 6. Ramos AP, Cruz MAE, Tovani CB, Ciancaglini P. Biomedical applications of nanotechnology. Biophysical reviews. 2017;9(2):79-89. Epub 2017/05/17. 7. Rehan M, Barhoum A, Van Assche G, Dufresne A, Gatjen L, Wilken R. Towards multifunctional cellulosic fabric: UV photo-reduction and in-situ synthesis of silver nanoparticles into cellulose fabrics. International journal of biological macromolecules. 2017;98:877-86. Epub 2017/02/22. 8. Huang Y, Fan CQ, Dong H, Wang SM, Yang XC, Yang SM. Current applications and future prospects of nanomaterials in tumor therapy. International journal of nanomedicine. 2017;12:1815-25. Epub 2017/03/24. 9. Kang B, Kukreja A, Song D, Huh YM, Haam S. Strategies for using nanoprobes to perceive and treat cancer activity: a review. Journal of biological engineering. 2017;11:13. Epub 2017/03/28. 10. Eckert MA, Vu PQ, Zhang K, Kang D, Ali MM, Xu C, et al. Novel molecular and nanosensors for in vivo sensing. Theranostics. 2013;3(8):583-94. Epub 2013/08/16. 11. Yeo DC, Wiraja C, Mantalaris A, Xu C. Nanosensors for regenerative medicine. Journal of biomedical nanotechnology. 2014;10(10):2722-46. Epub 2015/05/21. 12. Zhang XF, Liu ZG, Shen W, Gurunathan S. Silver Nanoparticles: Synthesis, Characterization, Properties, Applications, and Therapeutic Approaches. International journal of molecular sciences. 2016;17(9). Epub 2016/09/21. 13. Singh H, Du J, Yi TH. Kinneretia THG-SQI4 mediated biosynthesis of silver nanoparticles and its antimicrobial efficacy. Artificial cells, nanomedicine, and biotechnology. 2017;45(3):602-8. Epub 2017/02/18. 14. Wang L, Hu C, Shao L. The antimicrobial activity of nanoparticles: present situation and prospects for the future. International journal of nanomedicine. 2017;12:1227-49. Epub 2017/03/01. 15. Pokrowiecki R, Zareba T, Szaraniec B, Palka K, Mielczarek A, Menaszek E, et al. In vitro studies of nanosilver-doped titanium implants for oral and maxillofacial surgery. International journal of nanomedicine. 2017;12:4285-97. Epub 2017/06/28. 16. Asiyanbola B, Soboyejo W. For the surgeon: an introduction to nanotechnology. Journal of surgical education. 2008;65(2):155-61. Epub 2008/04/29. 17. Feynman R. There’s plenty of room at the bottom. Engineering and Science. 1960;23(5):22-36. 18. Kreuter J. Nanoparticles--a historical perspective. International journal of pharmaceutics. 2007;331(1):1-10. Epub 2006/11/18. 19. Sahoo SK, Parveen S, Panda JJ. The present and future of nanotechnology in human health care. Nanomedicine : nanotechnology, biology, and medicine. 2007;3(1):20-31. Epub 2007/03/24. 20. IBM. IBM and ETH Zurich open collaborative Nanotechnology Center. 2011; Available from: https://www.zurich.ibm.com/news/11/nanocenter.html. 21. Martin N. SOBRE FULLERENOS, NANOTUBOS DE CARBONO Y GRAFENOS. ARBOR Ciencia, Pensamiento y Cultura. 2011;CLXXXVII (EXTRA):115-31 I. 22. Iijima S. A career in carbon. Sumio Iijima is interviewed by Adarsh Sandhu. Nature nanotechnology. 2007;2(10):590-1. Epub 2008/07/26. 23. Harris DK, Bawendi MG. Improved Precursor Chemistry for the Synthesis of III–V Quantum Dots. Journal of the American Chemical Society. 2012;134(50):20211-3. 24. Valizadeh A, Mikaeili H, Samiei M, Farkhani SM, Zarghami N, kouhi M, et al. Quantum dots: synthesis, bioapplications, and toxicity. Nanoscale research letters. 2012;7(1):480. 25. Seil JT, Webster TJ. Antimicrobial applications of nanotechnology: methods and literature. International journal of nanomedicine. 2012;7:2767-81. Epub 2012/06/30. 26. Taylor E, Webster TJ. Reducing infections through nanotechnology and nanoparticles. International journal of nanomedicine. 2011;6:1463-73. 27. Heiligtag FJ, Niederberger M. The fascinating world of nanoparticle research. Materials Today. 2013;16(7):262-71. 28. Agency USEP. Classification of Nanomaterials, The Four Main Types of Intentionally Produced Nanomaterials. 2007. 29. Abbasi E, Aval SF, Akbarzadeh A, Milani M, Nasrabadi HT, Joo SW, et al. Dendrimers: synthesis, applications, and properties. Nanoscale research letters. 2014;9(1):247-. 30. Bhatia S. Natural Polymer Drug Delivery Systems Nanoparticles, Plants, and Algae Springer; 2016. 31. Silva GA. Introduction to nanotechnology and its applications to medicine. Surgical neurology. 2004;61(3):216-20. Epub 2004/02/27. 32. Iravani S, Korbekandi H, Mirmohammadi SV, Zolfaghari B. Synthesis of silver nanoparticles: chemical, physical and biological methods. Research in pharmaceutical sciences. 2014;9(6):385-406. Epub 2015/09/05. 33. Gurunathan S, Park JH, Han JW, Kim JH. Comparative assessment of the apoptotic potential of silver nanoparticles synthesized by Bacillus tequilensis and Calocybe indica in MDA-MB-231 human breast cancer cells: targeting p53 for anticancer therapy. International journal of nanomedicine. 2015;10(1178-2013 (Electronic)):4203-23. 34. Brinch A, Hansen SF, Hartmann NB, Baun A. EU Regulation of Nanobiocides: Challenges in Implementing the Biocidal Product Regulation (BPR). Nanomaterials (Basel, Switzerland). 2016;6(2). Epub 2017/03/28. 35. Makarov VV, Love AJ, Sinitsyna OV, Makarova SS, Yaminsky IV, Taliansky ME, et al. “Green” Nanotechnologies: Synthesis of Metal Nanoparticles Using Plants. Acta naturae. 2014;6(1):35-44. 36. Ronavari A, Kovacs D, Igaz N, Vagvolgyi C, Boros IM, Konya Z, et al. Biological activity of green-synthesized silver nanoparticles depends on the applied natural extracts: a comprehensive study. International journal of nanomedicine. 2017;12:871-83. Epub 2017/02/12. 37. Sundeep D, Vijaya Kumar T, Rao PSS, Ravikumar R, Gopala Krishna A. Green synthesis and characterization of Ag nanoparticles from Mangifera indica leaves for dental restoration and antibacterial applications. Progress in biomaterials. 2017;6(1-2):57-66. Epub 2017/05/05. 38. Boroumand Moghaddam A, Namvar F, Moniri M, Md Tahir P, Azizi S, Mohamad R. Nanoparticles Biosynthesized by Fungi and Yeast: A Review of Their Preparation, Properties, and Medical Applications. Molecules (Basel, Switzerland). 2015;20(9):16540-65. Epub 2015/09/18. 39. Gardea-Torresdey JL, Gomez E, Peralta-Videa JR, Parsons JG, Troiani H, Jose-Yacaman M. Alfalfa Sprouts:  A Natural Source for the Synthesis of Silver Nanoparticles. Langmuir : the ACS journal of surfaces and colloids. 2003;19(4):1357-61. 40. Singh P, Kim YJ, Zhang D, Yang DC. Biological Synthesis of Nanoparticles from Plants and Microorganisms. Trends in biotechnology. 2016;34(7):588-99. Epub 2016/03/06.
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dc.relation.ispartofjournal.spa.fl_str_mv Revista Repertorio de Medicina y Cirugía
dc.rights.spa.fl_str_mv Fundación Universitaria de Ciencias de la Salud - FUCS - 2018
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spelling Gómez-Garzón, Martha9c56a3a1498b172f5bf16624f4963af83002018-08-15 00:00:002022-02-21T20:34:22Z2018-08-152018-08-15 00:00:002022-02-21T20:34:22ZSociedad de Cirugía de Bogotá, Hospital de San José y Fundación Universitaria de Ciencias de la SaludFundación Universitaria de Ciencias de la Salud - FUCS - 2018info:eu-repo/semantics/openAccesshttps://creativecommons.org/licenses/by-nc-sa/4.0/http://purl.org/coar/access_right/c_abf2https://revistas.fucsalud.edu.co/index.php/repertorio/article/view/191NanopartículasSíntesis verdeNanoparticlesGreen synthesisNanomateriales, Nanopartículas y Síntesis verdeNanomaterials, Nanoparticles and Green Synthesisapplication/pdftext/htmlapplication/epub+zipapplication/xmlArtículo de revistaJournal articlehttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionTexthttp://purl.org/coar/version/c_970fb48d4fbd8a8510.31260/RepertMedCir.v27.n2.2018.1910121-7372https://repositorio.fucsalud.edu.co/handle/001/21212462-991Xhttps://doi.org/10.31260/RepertMedCir.v27.n2.2018.191spaDos Santos CA, Seckler MM, Ingle AP, Gupta I, Galdiero S, Galdiero M, et al. Silver nanoparticles: therapeutical uses, toxicity, and safety issues. Journal of pharmaceutical sciences. 2014;103(7):1931-44. Epub 2014/05/16. 2. Calderon-Jimenez B, Johnson ME, Montoro Bustos AR, Murphy KE, Winchester MR, Vega Baudrit JR. Silver Nanoparticles: Technological Advances, Societal Impacts, and Metrological Challenges. Frontiers in chemistry. 2017;5:6. Epub 2017/03/09. 3. Calle Kantuta GN. NANOTECNOLOGIA CONCEPTOS GENERALES. Revista de Información, Tecnología y Sociedad. 2010:7-9. 4. Chaloupka K, Malam Y, Seifalian AM. Nanosilver as a new generation of nanoproduct in biomedical applications. Trends in biotechnology. 2010;28(11):580-8. Epub 2010/08/21. 5. Hajipour MJ, Fromm KM, Ashkarran AA, Jimenez de Aberasturi D, de Larramendi IR, Rojo T, et al. Antibacterial properties of nanoparticles. Trends in biotechnology. 2012;30(10):499-511. Epub 2012/08/14. 6. Ramos AP, Cruz MAE, Tovani CB, Ciancaglini P. Biomedical applications of nanotechnology. Biophysical reviews. 2017;9(2):79-89. Epub 2017/05/17. 7. Rehan M, Barhoum A, Van Assche G, Dufresne A, Gatjen L, Wilken R. Towards multifunctional cellulosic fabric: UV photo-reduction and in-situ synthesis of silver nanoparticles into cellulose fabrics. International journal of biological macromolecules. 2017;98:877-86. Epub 2017/02/22. 8. Huang Y, Fan CQ, Dong H, Wang SM, Yang XC, Yang SM. Current applications and future prospects of nanomaterials in tumor therapy. International journal of nanomedicine. 2017;12:1815-25. Epub 2017/03/24. 9. Kang B, Kukreja A, Song D, Huh YM, Haam S. Strategies for using nanoprobes to perceive and treat cancer activity: a review. Journal of biological engineering. 2017;11:13. Epub 2017/03/28. 10. Eckert MA, Vu PQ, Zhang K, Kang D, Ali MM, Xu C, et al. Novel molecular and nanosensors for in vivo sensing. Theranostics. 2013;3(8):583-94. Epub 2013/08/16. 11. Yeo DC, Wiraja C, Mantalaris A, Xu C. Nanosensors for regenerative medicine. Journal of biomedical nanotechnology. 2014;10(10):2722-46. Epub 2015/05/21. 12. Zhang XF, Liu ZG, Shen W, Gurunathan S. Silver Nanoparticles: Synthesis, Characterization, Properties, Applications, and Therapeutic Approaches. International journal of molecular sciences. 2016;17(9). Epub 2016/09/21. 13. Singh H, Du J, Yi TH. Kinneretia THG-SQI4 mediated biosynthesis of silver nanoparticles and its antimicrobial efficacy. Artificial cells, nanomedicine, and biotechnology. 2017;45(3):602-8. Epub 2017/02/18. 14. Wang L, Hu C, Shao L. The antimicrobial activity of nanoparticles: present situation and prospects for the future. International journal of nanomedicine. 2017;12:1227-49. Epub 2017/03/01. 15. Pokrowiecki R, Zareba T, Szaraniec B, Palka K, Mielczarek A, Menaszek E, et al. In vitro studies of nanosilver-doped titanium implants for oral and maxillofacial surgery. International journal of nanomedicine. 2017;12:4285-97. Epub 2017/06/28. 16. Asiyanbola B, Soboyejo W. For the surgeon: an introduction to nanotechnology. Journal of surgical education. 2008;65(2):155-61. Epub 2008/04/29. 17. Feynman R. There’s plenty of room at the bottom. Engineering and Science. 1960;23(5):22-36. 18. Kreuter J. Nanoparticles--a historical perspective. International journal of pharmaceutics. 2007;331(1):1-10. Epub 2006/11/18. 19. Sahoo SK, Parveen S, Panda JJ. The present and future of nanotechnology in human health care. Nanomedicine : nanotechnology, biology, and medicine. 2007;3(1):20-31. Epub 2007/03/24. 20. IBM. IBM and ETH Zurich open collaborative Nanotechnology Center. 2011; Available from: https://www.zurich.ibm.com/news/11/nanocenter.html. 21. Martin N. SOBRE FULLERENOS, NANOTUBOS DE CARBONO Y GRAFENOS. ARBOR Ciencia, Pensamiento y Cultura. 2011;CLXXXVII (EXTRA):115-31 I. 22. Iijima S. A career in carbon. Sumio Iijima is interviewed by Adarsh Sandhu. Nature nanotechnology. 2007;2(10):590-1. Epub 2008/07/26. 23. Harris DK, Bawendi MG. Improved Precursor Chemistry for the Synthesis of III–V Quantum Dots. Journal of the American Chemical Society. 2012;134(50):20211-3. 24. Valizadeh A, Mikaeili H, Samiei M, Farkhani SM, Zarghami N, kouhi M, et al. Quantum dots: synthesis, bioapplications, and toxicity. Nanoscale research letters. 2012;7(1):480. 25. Seil JT, Webster TJ. Antimicrobial applications of nanotechnology: methods and literature. International journal of nanomedicine. 2012;7:2767-81. Epub 2012/06/30. 26. Taylor E, Webster TJ. Reducing infections through nanotechnology and nanoparticles. International journal of nanomedicine. 2011;6:1463-73. 27. Heiligtag FJ, Niederberger M. The fascinating world of nanoparticle research. Materials Today. 2013;16(7):262-71. 28. Agency USEP. Classification of Nanomaterials, The Four Main Types of Intentionally Produced Nanomaterials. 2007. 29. Abbasi E, Aval SF, Akbarzadeh A, Milani M, Nasrabadi HT, Joo SW, et al. Dendrimers: synthesis, applications, and properties. Nanoscale research letters. 2014;9(1):247-. 30. Bhatia S. Natural Polymer Drug Delivery Systems Nanoparticles, Plants, and Algae Springer; 2016. 31. Silva GA. Introduction to nanotechnology and its applications to medicine. Surgical neurology. 2004;61(3):216-20. Epub 2004/02/27. 32. Iravani S, Korbekandi H, Mirmohammadi SV, Zolfaghari B. Synthesis of silver nanoparticles: chemical, physical and biological methods. Research in pharmaceutical sciences. 2014;9(6):385-406. Epub 2015/09/05. 33. Gurunathan S, Park JH, Han JW, Kim JH. Comparative assessment of the apoptotic potential of silver nanoparticles synthesized by Bacillus tequilensis and Calocybe indica in MDA-MB-231 human breast cancer cells: targeting p53 for anticancer therapy. International journal of nanomedicine. 2015;10(1178-2013 (Electronic)):4203-23. 34. Brinch A, Hansen SF, Hartmann NB, Baun A. EU Regulation of Nanobiocides: Challenges in Implementing the Biocidal Product Regulation (BPR). Nanomaterials (Basel, Switzerland). 2016;6(2). Epub 2017/03/28. 35. Makarov VV, Love AJ, Sinitsyna OV, Makarova SS, Yaminsky IV, Taliansky ME, et al. “Green” Nanotechnologies: Synthesis of Metal Nanoparticles Using Plants. Acta naturae. 2014;6(1):35-44. 36. Ronavari A, Kovacs D, Igaz N, Vagvolgyi C, Boros IM, Konya Z, et al. Biological activity of green-synthesized silver nanoparticles depends on the applied natural extracts: a comprehensive study. International journal of nanomedicine. 2017;12:871-83. Epub 2017/02/12. 37. Sundeep D, Vijaya Kumar T, Rao PSS, Ravikumar R, Gopala Krishna A. Green synthesis and characterization of Ag nanoparticles from Mangifera indica leaves for dental restoration and antibacterial applications. Progress in biomaterials. 2017;6(1-2):57-66. Epub 2017/05/05. 38. Boroumand Moghaddam A, Namvar F, Moniri M, Md Tahir P, Azizi S, Mohamad R. Nanoparticles Biosynthesized by Fungi and Yeast: A Review of Their Preparation, Properties, and Medical Applications. Molecules (Basel, Switzerland). 2015;20(9):16540-65. Epub 2015/09/18. 39. Gardea-Torresdey JL, Gomez E, Peralta-Videa JR, Parsons JG, Troiani H, Jose-Yacaman M. Alfalfa Sprouts:  A Natural Source for the Synthesis of Silver Nanoparticles. Langmuir : the ACS journal of surfaces and colloids. 2003;19(4):1357-61. 40. Singh P, Kim YJ, Zhang D, Yang DC. Biological Synthesis of Nanoparticles from Plants and Microorganisms. Trends in biotechnology. 2016;34(7):588-99. 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