Green synthesis and characterization of silver nanoparticles using Cydonia oblong seed extract

Applied Nanoscience (Switzerland)

Volumn 6, Issue 7, 2016, Pages 1023-1029

  Zia, Faria ^a   Ghafoor, Nida ^a   Iqbal, Mudassir ^b   Mehboob, Saliha ^c  

^a Kinnaird College for Women   (Pakistan)

^b NATIONAL UNIVERSITY OF SCIENCES AND TECHNOLOGY   (Pakistan)

^c UNIVERSITY OF AGRICULTURE   (Pakistan)

Author keywords

Ag nanoparticles; Cydonia oblonga; Green synthesis

Indexed keywords

BIOMOLECULES; COST EFFECTIVENESS; FOURIER TRANSFORM INFRARED SPECTROSCOPY; GREEN SYNTHESIS; METAL NANOPARTICLES; PLANT EXTRACTS; SCANNING ELECTRON MICROSCOPY; SILVER METALLOGRAPHY; SPECTROSCOPIC ANALYSIS; X RAY DIFFRACTION;

AG NANOPARTICLE; CYDONIA OBLONGA; ENVIRONMENTALLY BENIGN; FACE CENTERED CUBIC STRUCTURE; GREEN CHEMISTRY APPROACHES; SILVER NANOPARTICLES (AGNPS); SYNTHESIS AND CHARACTERIZATIONS; VISIBLE SPECTROSCOPY;

SILVER NANOPARTICLES;

EID: 85031746716     PISSN: 21905509     EISSN: 21905517     Source Type: Journal    
DOI: 10.1007/s13204-016-0517-z     Document Type: Article

References (19)

1. Awwad AM, Salem NM (2012) Green synthesis of silver nanoparticles by mulberry leaves extract. Nanosci Nanotechnol 2(4):125–128
2. Desai R, Mankad V, Gupta SK, Jha PK (2012) Size distribution of silver nanoparticles: UV-visible spectroscopic assessment. Nanosci Nanotechnol Lett. 4:30–34
3. Dunn SW (2004) Applications of nanoparticles in biology and medicine. J Nanobiotechnol 2(3):1–6
4. Feynman R (1960) There’s plenty of room at the bottom. J Eng Sci. 23(5):22–36
5. Forough M, Farhadi K (2010) Biological and green synthesis of silver nanoparticles. J Eng Environ Sci 4(7):281–287
6. Ghorbani HR, Safekordi AA, Attar H, Rezayat Sorkhabad SM (2011a) Biological and non-biological methods for silver nanoparticles synthesis. J Chem Eng Sci and Res Branch 25(3):317–326
7. Ghorbani HR, Safekordi AA, Attar H, Sorkhabad SM (2011b) Biological and non-biological methods for silver nanoparticles synthesis. J Chem Eng Sci Res Branch 25(3):317–326
8. Ibrahim HM (2015) Green synthesis and characterization of silver nanoparticles using banana peel extract and their antimicrobial activity against representative microorganisms. J Rad Res App Sci 8(3):265–275
9. Kaddour N (2013) No laws in nanoland: how to reverse the trend? The French Example. J Nanotechnol Environ 30(2):486–522
10. Kostoff RN, Koytcheff RG, Lau CGY (2007) Global nanotechnology research literature overview. Technol Forecast Soc Change 74:1733–1747
11. Krishnaraj C, Ramachandran R, Mohan K, Kalaichelvan PT (2012) Optimization for rapid synthesis of silver nanoparticles and its effect on phytopathogenic fungi. Spectrochim Acta A Mol Biomol Spectrosc. 93(5):95–99
12. Lim GK, Fujii K, Harris KDM, Apperley DC (2011) Structure determination from powder X-ray diffraction data of a new polymorph of a high-density organic hydrate material, with an assessment of hydrogen-bond disorder by Rietveld refinement. Cryst Growth Des 11(12):5192–5199
13. 11 at three different temperatures. Chem Mater Sci 4(2):126–133
14. Pavani KV, Sunilkumar N, Grayathramma K (2012) Plants as ecofriendly nanofactories. J Biosci 6(1):1–6
15. Sharma G, Sharma AR, Kurian M, Bhavesh R et al (2014) Green synthesis of silver nanoparticle using Myristica fragrans (Nutmeg) seed extract and its biological activity. Digest J Nanomater Biostructures. 9(1):325–332
16. Silva BM, Andrade PB, Ferreres F, Seabra RM, Oliveira MB, Ferreira MA (2005) Composition of quince (Cydonia oblonga Miller) seeds: phenolics, organic acids and free amino acids. Nat Prod Res 3:275–281
17. Veeraputhiran V (2013) Bio-catalytic synthesis of silver nanoparticles. Int J Chem Tech Res. 5:2555–2562
18. Vodnik VV, Božanic DK, Bibic N, Šaponjić ZV (2010) Optical properties of shaped silver nanoparticles. J Nanosci Nanotechnol 8:1–5
19. Yi S, Sun L, Lenaghan SC, Wang Y, Chong X, Zhang Z, Zhang M (2013) One-step synthesis of dendritic gold nanoflowers with high surface-enhanced Raman scattering (SERS) properties. RSC Adv 3(26):10139–10144