Globally many techniques are well developed and documented for the research in every stream as engineering, sciences, medicine, pharmaceutical and synthesis of metal nanoparticles. Some of the techniques like nanotechnology, biotechnology and biosynthesis of nanoparticles should be developed in the environmentally friendly technique in the material synthesis [1]. During recent years, AgNPs have been growing fast due to the unique characteristics and importance in antibacterial, biological, catalytic, chemical, electronic, electrochemical, optical and photo-magnetic properties [2]. The silver and gold NPs attracted researchers because of their unique applications in field like agriculture, drug delivery systems, food sectors, biomedical field, textile units and water treatment [3,4]. The use of microorganisms as antimicrobial, antifungal agent and as a catalyst for synthesis of nanoparticles and nanometals were explored. Sastry and Co-workers studied about the use of plant materials and microbes as nanofactories [5-7]. Synthesis of nanoparticles obtained by chemical and physical methods are environment friendly. This also includes design development by renewable high energy efficient nanomaterials. The biological method developed for We thankful to the Aligarh Muslim University for their support in carrying out in this research work regarding SEM-EDAX, and TEM analysis and thanks to Banaras Hindu University for their help of FT-IR spectrum analysis.
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