ORIENTAL JOURNAL OF CHEMISTRY www.orientjchem.org An International Open Access, Peer Reviewed Research Journal ISSN: 0970-020 X CODEN: OJCHEG 2022, Vol. 38, No.(5): Pg. 1165-1173 This is an Open Access article licensed under a Creative Commons license: Attribution 4.0 International (CC- BY). Published by Oriental Scientific Publishing Company © 2018 Research and Evaluation of Electro-organic Synthesis of Nanomaterials G. MALATHI 1 , C. THILLAIYADI VALLIAMMAI 1 *, RAHUL RATNAKAR MAHAMUNI 2 , ANTHATI SREENIVASULU 3 , J. MADHUSUDHANAN 4 and M. I. NIYAS AHAMED 5 1 Department of Chemistry, A.V.V.M. Sri Pushpam College (Autonomous), Poondi-613503, Thanjavur, (Affiliated to Bharathidasan University, Tiruchirappalli-24), Tamil Nadu, India. 2 Department of Environmental Science, S.B.E.S. College of Science, Aurangabad, Maharashtra, India. 3 Department of Chemistry, Nagarjuna Government Degree College (Autonomous), Nalgonda, Mahatma Gandhi University, Nalgonda, Telangana, India. 4 Department of Biotechnology, Anand Institute of Higher Technology, Kalasalingam Nagar, OMR, Kazhipattur, Chennai, Tamilnadu, India. 5 Department of Biochemistry, Sacred Heart College (Autonomous), Tirupattur-635601, Tamilnadu, India. *Corresponding author E-mail: thillaiyadivalli@gmail.com http://dx.doi.org/10.13005/ojc/380511 (Received: February 21, 2022; Accepted: September 22, 2022) ABSTRACT Electricity is being used more directly and artificially than before. Working in a lab with a stronger synthetic emphasis enables the deployment of fresh ideas as well as ones that have been revived from earlier attempts in a wider range of situations. The amount of waste is decreased by using only electrons as reagents. Regenerating stoichiometric reagents in the correct molecular ratio can help electro catalytic catalysis. While minimizing waste is important, doing so also results in quicker and easier processes, gentler transitions, and the availability of more options, such as structural entities and IP space. Regenerative electricity can be used to give a terminal oxidizer or reducing agent that is extremely sustainable, which makes it a very alluring technology. Future electricity will be variable and plentiful, which will be very advantageous for value-added chemicals. The efficient conversion of renewable bio-based feedstocks serves as the first example of how contemporary electro-organic technologies can replace complex conventional processes. A new wave of sustainable chemistry will emerge if these obstacles are removed. This article takes a look at some recent developments in electrochemical synthesis that will undoubtedly affect how the discipline develops in the future. Keywords: Stochastic, Electro catalytic, Footprint, Electro-organic, Bio-based feedstocks and Electro-organic technologies. INTRODUCTION The current social revolution is merely the beginning. Anger about climate change and the need to take action rises when major natural catastrophes receive broad media attention. The