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Biosynthesis of copper nanoparticles by using Aloe barbadensis leaf extracts and study of application in Congo red (Acid red 28) dye removal
16th World Medical Nanotechnology Congress
September 03-04, 2018 Tokyo, Japan
Madiha Batool, Zahid Qureshi, Farwa Hashmi and Nida Mehboob
Govenment College University, Pakistan
Punjab Group of Colleges, Pakistan
Scientific Tracks Abstracts: J Nanomed Nanotechnol
Abstract:
Development of green nanotechnology is generating interest of researchers toward eco-friendly biosynthesis of nanoparticles. In this study, biosynthesis of stable copper nanoparticles was done using Aloe barbadensis leaf extract. First of all, we prepared leaf extract of Aloe barbadensis in de-ionized water. This extract added to 1 mmol of copper sulfate solution and observed the change in color of the solution from colorless to dark brown colored solution. The present study tracing of an object is a green synthesis of copper nanoparticles by the interaction of leaf extract and copper salt and its dye removal efficiency. Copper-oxide nanoparticles in this study examined the efficient removal of Congo red CR dye. The effects of variables like concentration, time, pH, adsorbent dosage also examined in this present study. This was noted that maximum pH 3, the concentration of nanoparticles 1 mg, maximum time 120 minutes was optimum condition for dye removal. Biosynthesis of nanoparticle put forward a cost-free and environmentally suitable method of nanoparticle synthesis. The characterization of copper oxide nanoparticles like X-ray diffraction and SEM analysis showed that average particle size calculated was 40 nm. The shape of the copper nanoparticles was spherical and cubic and their range of grain was 80-120 nm. EDX of synthesized nanoparticles showed copper 38%. UV spectrophotometer analysis confirms peak of the copper nanoparticles between 200- 600 nm.
Biography :
Madiha Batool has her expertise in nano-metal green synthesis and its application in degradation of azo dyes. She has experimented on five azo dyes and study effect of degradation efficiency of metal nanoparticles.
E-mail: tweetchem56@gmail.com