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Review Article
Review On Silver Nano Particles
Indrapati Mamatha1
Cherlagudem Dharani2
Dasari Nandini3
Gajula Malathi4
Kuthuru Shiva Prasad5
1Assistant Professor, Department of pharmaceutical chemistry, Joginpally B.R. Pharmacy College, Hyderabad, Telangana, India. 2345 Students, Department of pharmaceutical chemistry, Joginpally B.R. Pharmacy College, Hyderabad, Telangana, India
Published Online: January-February 2024
Pages: 47-53
Cite this article
↗ https://www.doi.org/10.59256/ijrtmr.20240401008
References
1. Kholoud M M ABOU-El-Nour,ALA Eftaiha,Abdulrahman Al-Warthan,Reda A A Amar synthesis and applications of silver
nanoparticles
2. Xi-Feng Zhang,Zhi-Guo Liu, Wei shen and Sangiliyandi Gurunathan .silver nano particles; synthesis ,characterization ,properties
,Application and therapeutic approaches .Int.J.Mol.science 17,volume(9),2016,1534
3. Oleksandra Pryshchepa,Pawl Pamastowksia,Bogustaw Buszewski. Advances in colloid and Interface science ,volume(284),October
2020,102246
4. M. Ganglia,*, M. Ganjalib , P. Vahdatkhahc , S. M. B. Maras hid, Synthesis of Ni Nanoparticles by Pulsed Laser Ablation Method
in Liquid Phase, Science Direct, Precede Materials Science 11 ( 2015 ) 359 – 363 (7)
5. S.Iravan ,H Korbekandi, Mirmohammadi and B.Zolfaghari. Synthesis of silver nano particles, chemical, physical and biological
method. Res Pharma Sci , volume 9,6, November-December 2024
6. Willey B, Sun Y, Mayer’s B ,Xi Y. Shape controlled synthesis of metal nanoparticles the case of silver. Chemistry Eur J
2005;11:454-463
7. Evanoff, Chumanov , G. Size-controlled synthesis of nanoparticles. 2 Measurement of extinction scattering and absorption cross
section. J Physchem B. 2004;108:13957-13962
8. (Choy, Yusuf, Hatter, Sun et al., 2000, Vetches, Yeo et al., 2003, Zhang et al., 2004, Zhang et al., 2006, Chimentao et al., 2004, He
et al., 2004, Khomutov and Gubin, 2002). (8)
9. Kholoud M.M. Abou El-Nour , Ala’a Eftaiha , Abdulrhman Al-Warthan b, Reda A.A. Ammar , Synthesis and applications of silver
nanoparticles, Arabian Journal of Chemistry, Volume 3, Issue 3, July 2010, Pages 135-140 (9)
10. Alexandra-Cristiana Burdusel, Oana Gherasim, Alexandra mi hay Grumezescu, Laurentiu, Mongo anta fascia, and on and
Eucaterina Andronicus. Biomedical Application of silver nanoparticles : An up-to-date overview. Nanomaterial, volume (8) ,9,
2018, 681
11. Aswathy Ravindran, Preethy chandran, S. Sudheer Khan. Bioinformatics silver nanoparticles: Advance and Prospects. Collaidal
and surface B: Biointerface. Volume 105, 1, may 2013, 342-352
12. Khwaja, Salahuddin Siddiqi and Azamal Husen, Fabrication of metal nanoparticles from fungi and metal salts: scope and
applications. Nano scale research letter, volume (11), 24 february 2016, 98
13. Soumya Das, R. Aswani, Sebastin Jose Midhun, E.K. Radhakrishnan, Jyothis Mathew. Advantages of zinc oxide nanoparticles over
silver nanoparticles for the management of Aeromonas Veronii infection in Xi phosphorous hellerii. Microbial Pathogenesis,
volume (147), October 2020,104348
14. Porous Polymers as carrier for siver nanoparticles and nanoclusters : Advantages of compartmentalization for antimicrobial
usage. Biomacromolecules 2023,24,12,5905-5914
15. AnnaMaria Swidwinska-Gajewska, Slawomir CZerczak. Nanosilver-harmfull effects of biological activity. National Center For
BiotechnologyIinformation,2024;65 (6):831-45.
16. Samari, F. Baluchi, L. Salehipoor, H. Yousefinejad, S.Controlled photosynthesis of cupric oxide nanoparticles by aqueous extract
of capparis spinosa (capper) leaves and application in iron sensing. Micro chem. J. 2019,150,104158.
17. Javed, B.Nadhman, A.Optimization, characterization and antimicrobial activity of silver nanoparticles against plant bacterial
pathogens phyto-synthesized by Mentha longifolia mater Res. Express 2020,7,085406
18. Fang, J. Zhang C MUR. The study of deposited silver particulate films. Simple method for efficient SERS. Chem Phys Letter,
2005;401;271-275
19. Srinivasulu B, Prakasham RS. Jetty A, et al, Neomycin production with free and immobilized cells of streptomycin marinensis in an
airlift reactor process. Biochemistry 2002;38;593-598
20. Song KC, Lee SM. Park TS, et al, Preparation of colloidal silver nanoparticles. Chemistry reduction method. Korean J Chemistry
Eng. 2009;26;153-155
21. Myungjoon Kim, Saho Osone, Taesung Kim, Hidenori Higashi, Takafumi Seto. KONA Powder and particle Journal ,volume(34)
2017,80-90
22. N.G.Semaltianos, Nanoparticles. Laser Ablation, Critical Review In Solid State And Material Science. Volume 35,2010,105-124
23. Chichkov, B.N., Momma, C.Nolte, S.Von Alvensleben, F. and Tunnermann. Femtosecond Picosecond and Nanosecond Laser
Ablation of Solid. Volume(63),1996,109-115
24. Naomi Sakono, Yuto Ishida,Kazuki Ogo, Nobuko Tsumori, Haruno Murayama and Masafumi Sakono. Mola-Fraction-Tunable
Synthesis of Ag-Au Alloy Nanoparticles via a Dual Evaporation-Condensation Method as Supported Catalyst for Co Oxidation.
Nano Mater.2023,6,4,3065-3074
25. Xi-Feng Zhang, Zhi-Guo Liu, Wei Shen, and Sangiliyandi Gurunathan Silver Nanoparticles: Synthesis, Characterization, Properties,
Applications, and Therapeutic Approaches Int J Mol Sci. 2016 Sep; 17(9): 1534.
26. Xixi Zhao, Xiaoguang Xu, Chongyang Ai, Lu Yan, Chunmei Jiang, Junling Shi, Chapter 22 - Advantages of silver nanoparticles
synthesized by microorganisms in antibacterial activity, Green Synthesis of Silver Nanomaterials Nanobiotechnology for Plant
Protection, 2022, Pages 571-586
27. Xixi Zhao, Xiaoguang Xu, Chongyang Ai, Lu Yan, Chunmei Jiang, Junling Shi, Chapter 22 - Advantages of silver nanoparticles
synthesized by microorganisms in antibacterial activity, Green Synthesis of Silver Nanomaterials Nanobiotechnology for Plant
Protection, 2022, Pages 571-586
nanoparticles
2. Xi-Feng Zhang,Zhi-Guo Liu, Wei shen and Sangiliyandi Gurunathan .silver nano particles; synthesis ,characterization ,properties
,Application and therapeutic approaches .Int.J.Mol.science 17,volume(9),2016,1534
3. Oleksandra Pryshchepa,Pawl Pamastowksia,Bogustaw Buszewski. Advances in colloid and Interface science ,volume(284),October
2020,102246
4. M. Ganglia,*, M. Ganjalib , P. Vahdatkhahc , S. M. B. Maras hid, Synthesis of Ni Nanoparticles by Pulsed Laser Ablation Method
in Liquid Phase, Science Direct, Precede Materials Science 11 ( 2015 ) 359 – 363 (7)
5. S.Iravan ,H Korbekandi, Mirmohammadi and B.Zolfaghari. Synthesis of silver nano particles, chemical, physical and biological
method. Res Pharma Sci , volume 9,6, November-December 2024
6. Willey B, Sun Y, Mayer’s B ,Xi Y. Shape controlled synthesis of metal nanoparticles the case of silver. Chemistry Eur J
2005;11:454-463
7. Evanoff, Chumanov , G. Size-controlled synthesis of nanoparticles. 2 Measurement of extinction scattering and absorption cross
section. J Physchem B. 2004;108:13957-13962
8. (Choy, Yusuf, Hatter, Sun et al., 2000, Vetches, Yeo et al., 2003, Zhang et al., 2004, Zhang et al., 2006, Chimentao et al., 2004, He
et al., 2004, Khomutov and Gubin, 2002). (8)
9. Kholoud M.M. Abou El-Nour , Ala’a Eftaiha , Abdulrhman Al-Warthan b, Reda A.A. Ammar , Synthesis and applications of silver
nanoparticles, Arabian Journal of Chemistry, Volume 3, Issue 3, July 2010, Pages 135-140 (9)
10. Alexandra-Cristiana Burdusel, Oana Gherasim, Alexandra mi hay Grumezescu, Laurentiu, Mongo anta fascia, and on and
Eucaterina Andronicus. Biomedical Application of silver nanoparticles : An up-to-date overview. Nanomaterial, volume (8) ,9,
2018, 681
11. Aswathy Ravindran, Preethy chandran, S. Sudheer Khan. Bioinformatics silver nanoparticles: Advance and Prospects. Collaidal
and surface B: Biointerface. Volume 105, 1, may 2013, 342-352
12. Khwaja, Salahuddin Siddiqi and Azamal Husen, Fabrication of metal nanoparticles from fungi and metal salts: scope and
applications. Nano scale research letter, volume (11), 24 february 2016, 98
13. Soumya Das, R. Aswani, Sebastin Jose Midhun, E.K. Radhakrishnan, Jyothis Mathew. Advantages of zinc oxide nanoparticles over
silver nanoparticles for the management of Aeromonas Veronii infection in Xi phosphorous hellerii. Microbial Pathogenesis,
volume (147), October 2020,104348
14. Porous Polymers as carrier for siver nanoparticles and nanoclusters : Advantages of compartmentalization for antimicrobial
usage. Biomacromolecules 2023,24,12,5905-5914
15. AnnaMaria Swidwinska-Gajewska, Slawomir CZerczak. Nanosilver-harmfull effects of biological activity. National Center For
BiotechnologyIinformation,2024;65 (6):831-45.
16. Samari, F. Baluchi, L. Salehipoor, H. Yousefinejad, S.Controlled photosynthesis of cupric oxide nanoparticles by aqueous extract
of capparis spinosa (capper) leaves and application in iron sensing. Micro chem. J. 2019,150,104158.
17. Javed, B.Nadhman, A.Optimization, characterization and antimicrobial activity of silver nanoparticles against plant bacterial
pathogens phyto-synthesized by Mentha longifolia mater Res. Express 2020,7,085406
18. Fang, J. Zhang C MUR. The study of deposited silver particulate films. Simple method for efficient SERS. Chem Phys Letter,
2005;401;271-275
19. Srinivasulu B, Prakasham RS. Jetty A, et al, Neomycin production with free and immobilized cells of streptomycin marinensis in an
airlift reactor process. Biochemistry 2002;38;593-598
20. Song KC, Lee SM. Park TS, et al, Preparation of colloidal silver nanoparticles. Chemistry reduction method. Korean J Chemistry
Eng. 2009;26;153-155
21. Myungjoon Kim, Saho Osone, Taesung Kim, Hidenori Higashi, Takafumi Seto. KONA Powder and particle Journal ,volume(34)
2017,80-90
22. N.G.Semaltianos, Nanoparticles. Laser Ablation, Critical Review In Solid State And Material Science. Volume 35,2010,105-124
23. Chichkov, B.N., Momma, C.Nolte, S.Von Alvensleben, F. and Tunnermann. Femtosecond Picosecond and Nanosecond Laser
Ablation of Solid. Volume(63),1996,109-115
24. Naomi Sakono, Yuto Ishida,Kazuki Ogo, Nobuko Tsumori, Haruno Murayama and Masafumi Sakono. Mola-Fraction-Tunable
Synthesis of Ag-Au Alloy Nanoparticles via a Dual Evaporation-Condensation Method as Supported Catalyst for Co Oxidation.
Nano Mater.2023,6,4,3065-3074
25. Xi-Feng Zhang, Zhi-Guo Liu, Wei Shen, and Sangiliyandi Gurunathan Silver Nanoparticles: Synthesis, Characterization, Properties,
Applications, and Therapeutic Approaches Int J Mol Sci. 2016 Sep; 17(9): 1534.
26. Xixi Zhao, Xiaoguang Xu, Chongyang Ai, Lu Yan, Chunmei Jiang, Junling Shi, Chapter 22 - Advantages of silver nanoparticles
synthesized by microorganisms in antibacterial activity, Green Synthesis of Silver Nanomaterials Nanobiotechnology for Plant
Protection, 2022, Pages 571-586
27. Xixi Zhao, Xiaoguang Xu, Chongyang Ai, Lu Yan, Chunmei Jiang, Junling Shi, Chapter 22 - Advantages of silver nanoparticles
synthesized by microorganisms in antibacterial activity, Green Synthesis of Silver Nanomaterials Nanobiotechnology for Plant
Protection, 2022, Pages 571-586
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