Green Synthesis of Silver Nanoparticles Using Olden-landia corymbosa and Ocimum sanctum Leaf Aqueous Extract
DOI:
https://doi.org/10.37285/ijpsn.2020.13.3.11Abstract
The field of nanotechnology is the most renowned area of research in modern day science. One of the most convenient and comprehensive technique related to the synthesis of nanoparticles using plant extracts and their subsequent action. On the other hand, herbal medicines become an integral part of modern-day treatment strategy around the globe; combination of these two ways are widely accepted and beneficial due to its low cost, better societal recognition and less side effects. Phytochemical analysis revealed that leaf aqueous extract of two medicinal plants Oldenlandia corymbosa and Ocimum sanctum, harbours high concentration of antioxidants and bioactive molecules. Hence our present course of study aims at the green synthesis of silver nano-conjugates using Oldenlandia corymbosa and Ocimum sanctum leaf aqueous extracts. The synthesized nano-conjugates have undergone advanced chara-cterization techniques including UV-Vis Spectro-photometry, DLS, and FT-IR. The UV-Vis spectroscopy results showed single peak at 420 nm and 430 nm for Oldenlandia corymbosa and Ocimum sanctum nano-conjugates, respectively. The particle size for Oldenlandia corymbosa and Ocimum sanctum nano-particles are 21.04 nm and 24.36 nm, respectively as observed from the DLS data, and finally, the FT-IR data confirms the conjugation of bioactive molecules of the medicinal plants indicating that primary amines, secondary amines, alcohols, phenols, aldehydes, aliphatic amines, alkenes, functional groups of the bioactive molecules are responsible for the stability of prepared silver nano-conjugates
Downloads
Metrics
Keywords:
Green Synthesis, Oldenlandia corymbosa, Ocimum sanctum, Antioxidant activity, Silver Nanoparticles, UV-Vis, DLS, FTIR
Downloads
Published
How to Cite
Issue
Section
References
Ammal RM, Vijistella GB (2014). Green synthesis of silver nanostructures against human cancer cell lines and certain pathogens. IJPCBS. 4(1): 101-111.
Banik S, Mukherjee R, GhoshP,Karmakar S, Chatterjee S(2018). Estimation of plant pigments concentration from tulsi (Ocimum sanctum Linn.): a six months study. Journal of Pharmacognosy and Phytochemistry. 7(4): 2681-2684
Das S, Mondal N, Mondal S, Ghosh P, Ghosh C, Das C, Chatterjee S (2019). Botanical features, phytochemical and pharmacological overviews of OldenlandiacorymbosaLinn.: A brief review. The Pharma Innovation Journal. 8(2): 464-468
Deepashree CL, Komal JK, Devi Prasad AG, Zarei M and Gopal S (2012). FTIR spectroscopic studies on Cleome gynandra-comparative analysis of functional group before and after extraction.Romanian J. Biophys. 22: 137-143.
Ghosh P, Kulavi S, Nandi S, Sengupta T, Biswas M, Das P, Das C, Chatterjee S (2019). Green synthesis and characterization silver nano-conjugates using Heliotropium indicum and Glycosmis pentaphylla leaf aqueous extracts. Journal of Nanoscience, Nanoengineering & Applications 9(2): 22-30.
Ghosh P, Saha M, Nandi S, Sengupta T, Kulavi S, Das S, Chatterjee S (2020). Green synthesis and characterization of silver nano-conjugates using some common medicinal weeds leaf aqueous extracts. International Journal of Pharmaceutical Sciences and Nanotechnology 13(1): 4752-4758.
Iravani, S (2011). Green synthesis of metal nanoparticles using plants.Green Chem. 13: 2638-2650.
Jain PK, Soni A, Jain P and Bhawsar (2016). J Phytochemical analysis of Menthaspicata plant extracts using UV-VIS, DLS and FTIR technique. Journal of Chemical and Pharmaceutical Research 8(2): 1-6.
Jha, A., Prasad, K, Prasad, K, Kulkarni, AR (2009). Plant system: nature's nanofactory. Colloids Surf. B Biointerfaces 73(2): 219-223.
Kalaichelvi K and Dhivya SM (2017). Screening of phytoconstituents, UV-VIS Spectrum and FTIR analysis of Micrococcamercurialis (L.)Benth.International Journal of Herbal Medicine 5(6): 40-44.
Korbekandi, H.I., &Abbasi, S (2009).Production of nanoparticles using organisms.Critical Reviews in Biotechnology 29(4): 279-306.
Nadaroglu H, Azize AG, Selvi I, Babagli A (2016). Green synthesis and characterization of platinum nanoparticles using quail egg yolk. SpectrochimicaActa Part A: Molecular and Biomolecular Spectroscopy 172: 43-47.
Rani K, Lekha C, Parthiban and Vijaya (2018). Green synthesis and characterization of silver nanoparticles using leaf and stem aqueous extract of PauzolziaBennettiana and their antioxidant activity. Journal of Pharmacognosy and Phytochemistry SP5: 129-132.
Satheesh Kumar K and Kathireswari P (2016). Biomimetic synthesis and characterization of silver nanoparticles (Ag-NPs) using Emblicaofficinalis (gooseberry) plant aqueous extract and their antibacterial activity against multi drug resistant human pathogens. World Journal of Pharmacy And Pharmaceutical Sciences 5: 2313-2324.
Shekharan TR and Tamilvanan S (2019). Advances in nanocapsule: types, preparation methods and characterization. International Journal of Pharmaceutical Sciences and Nanotechnology 12 (4).
Shen Q, Zhang B, Xu R, Wang Y, Ding X, Li P (2010). Antioxidant activity in vitro of Selenium-contained protein from the Se-enriched Bifodobacterium animalis 01. Anaerobe. 16: 380-386.
Shunmugadevi C and Palanisamy P (2016). Comparative study of silver nanoparticles: green synthesis, characterization and biological evaluation of Carica papaya and Andrographis-paniculata leaf extract. World Journal of Pharmaceutical Sciences 4(6): 454-465.
Singh J, Kaur H, Rawat M (2018). An uncanny potential of plants for metal nanoparticles synthesis.J Nanomed Res 7(3): 228‒229.
Sood A and Aggarwal S (2018). Metallic Nanoparticle Synthesis by Green Chesmistry.International Journal of Pharmaceutical Sciences and Nanotechnology 11(6): 4287-4294.
Spoorthy HP, VasanthPatil HB, Rekha ND and Satish S (2018). Proteus penneri assisted synthesis of metal nanoparticles: biofunctional evaluation and characterization. International Journal of Pharmaceutical Sciences and Nanotechnology 11(4): 4170-4176
Tiwari PM, Vig K, Dennis V (2011). Functionalized Gold Nanoparticles and Their Biomedical Applications.Nanomaterials 1(1): 31-63.
