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This book, explains the organic functional groups of Terminalia bellirica fruit extract is most effectively and rapidly synthesized different nanoparticles by comparing with Limonia acidissima leaf extract. The synthesized Ag, Cu (UCuNPs), Pd and Au nanoparticles, ultra-small copper nanoparticles showed good antimicrobial activity by comparing with other metals. Because of its size, it plays a pivotal role to inhibit microbially, the size of smaller copper ions (2-7 nm). Future studies should include elucidation of the scope and mechanism of this method, followed by the extension of this…mehr

Produktbeschreibung
This book, explains the organic functional groups of Terminalia bellirica fruit extract is most effectively and rapidly synthesized different nanoparticles by comparing with Limonia acidissima leaf extract. The synthesized Ag, Cu (UCuNPs), Pd and Au nanoparticles, ultra-small copper nanoparticles showed good antimicrobial activity by comparing with other metals. Because of its size, it plays a pivotal role to inhibit microbially, the size of smaller copper ions (2-7 nm). Future studies should include elucidation of the scope and mechanism of this method, followed by the extension of this reaction to other materials, including noble metal particles and bimetallic materials, as well as the synthesis of new Bunte salts with functional groups specific to a given application. Many of the challenges described in the previous chapters could be remediated by borrowing a key principle from another, demonstrating that new materials are rarely produced from entirely green methods at inception, yet many of the processes are easily improved.
Autorenporträt
Dr. Annavaram Viswadevarayalu received his Master¿s degree from Sri Venkateswara University, Andhra Pradesh, India in 2010, and his Ph.D. from Yogi Vemana University, and Andhra Pradesh, India in 2016. He worked as a Postdoctoral researcher in Jiangsu University, China during the year 2017-2019.