References
- Vivekanandhan, S., L. Christensen, M. Misra, and A. K. Mohanty. 2012. Green process for impregnation of silver nanoparticles into microstalline cellulose and their antimicrobial bionanocomposite films. J. Biomater. Nanobiotechnol. 3:371–376.
- Kumar, A., V. Praveen Kumar, P. M. Ajayan, and G. John. 2008. Silver nanoparticle embedded antimicrobial paints based on vegetable oil. Nat. Mater. 79:236–241.
- Gates, B. C. 1995. Supported metal clusters: Synthesis, structure, and catalysis. Chem. Rev. 95:511–522.
- Sadanand, V., N. Rajini, B. Satyanarayana, and A. Varada Rajulu. 2016. Preparation and properties of cellulose/silver nanoparticle composites with in situ generated silver nanoparticles using ocimum sanctum leaf extract. Int. J. Poly. Anal. Charact. 21:408–416.
- Sadanand, V., N. Rajini, B. Satyanarayana, and A. Varada Rajulu. 2016. Preparation of cellulose composites with in situ generated copper nanoparticles using leaf extract and their properties. Carbohydr. Polym. 150:32–39.
- Kishanji, M., G. Mamatha, K. Obi Reddy, A. Varada Rajulu, and K. Madhukar. 2012. In situgeneration of silver nanoparticles in cellulose matrix using azadirachtaindicaleaf extract as a reducing agent. J. Biomater. Nanobiotechnol. 03:371–740.
- Muthulakshmi, L., N. Rajini, H. Nellaiah, T. Kathiresan, M. Jawaid, and A. Varada Rajulu. 2017. Experimental investigation of cellulose/silver nanocomposites using in situ generation method. J. Polym. Environ. 5:1021–1032.
- Sadanand, V., H. Tian, A. Varada Rajulu, and B. Satyanarayana. 2017. Antibacterial cotton fabric with in situ generated silver nanoparticles by one step hydrothermal method. Int. J. Polym. Anal. Charact. 22:275–279.
- Sadanand, V., H. Tian, A. Varada Rajulu, and B. Satyanarayana. 2017. Preparation and properties of low cost cotton nanocomposite fabrics with in situ generated copper nanoparticles by simple hydrothermal method. Int. J. Polym. Anal. Charact. 22:587–594.
- Soundararajan, V., G. Ravi Kumar, K. Murugesan, and B. S. Chandrashekar. 2016. A review on red sanders (Pterocarpus Santalinus Linn.)—phyto-chemistry and pharmacological importance. World J. Pharm. Pharm. Sci. 5:667–689.
- Saradamma, B., R. Hymavathi, N. Varadacharyulu, and V. Damodarareddy. 2016. Therapeutic potential of Pterocarpus Santalinus L.: An update. Pharmacogn. Rev. 10:43–49.
- Obi Reddy, K., B. R. Guduri, and A. Varada Rajulu. 2009. Structural characterization and tensile properties of borassus fruit fibers. J. Appl. Polym. Sci 114:603–611.
- Uma Maheswari, C., and K. A. Obi Reddy. 2012. Extraction and characterization of cellulose microfibrils from agricultural residue—Cocos nucifera L. Biomass Bioenergy 46:555–563.
- Obi Reddy, K., B. Ashok, R. N. Reddy, Y. E. Feng, J. Zhang, A. Varada Rajulu. 2014. Extraction and characterization of novel lignocellulosic fibers from thespesia lampas plant. Int. J. Polym. Anal. 19:48–61.
- Zuzer, H. D., and C. Hemalatta. 2012. Lactobacillus mediated synthesis of silver oxide nano particles. Nanomater. Nanotechnol. 2:1–7.