This paper is published in Volume-5, Issue-3, 2019
Area
Material Science
Author
Chaudhari Devanand Prakash
Org/Univ
Sarvepalli Radhakrishnan University, Bhopal, Madhya Pradesh, India
Pub. Date
19 June, 2019
Paper ID
V5I3-1901
Publisher
Keywords
Electrodeposition, Nanomaterials, Thin films, Nanotechnology

Citationsacebook

IEEE
Chaudhari Devanand Prakash. Synthesis of FeOOH by electrochemical deposition techniques, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
Chaudhari Devanand Prakash (2019). Synthesis of FeOOH by electrochemical deposition techniques. International Journal of Advance Research, Ideas and Innovations in Technology, 5(3) www.IJARIIT.com.

MLA
Chaudhari Devanand Prakash. "Synthesis of FeOOH by electrochemical deposition techniques." International Journal of Advance Research, Ideas and Innovations in Technology 5.3 (2019). www.IJARIIT.com.

Abstract

We are conducting FeOOH platelets were successfully synthesized on ITO substrate by an electrochemical deposition method also conducting a multi-disciplinary research work that involves the development of nanostructured thin films of semiconductors for different applications. Nanotechnology is widely considered to constitute the basis of the next technological revolution, following on from the first Industrial Revolution, which began around 1750 with the introduction of the steam engine and steelmaking. Nanotechnology is defined as the design, characterization, production, and application of materials, devices, and systems by controlling shape and size of the nanoscale. The nanoscale itself is at present considered to cover the range from 1 to 100 nm. All samples prepared in thin film forms and the characterization revealed their nanostructure. The major exploitation of thin films has been in microelectronics, there are numerous and growing applications in communications, optical electronics, coatings of all kinds, and in energy generation. A great many sophisticated analytical instruments and techniques, largely developed to characterize thin films, have already become indispensable in virtually every scientific endeavor irrespective of discipline. Among all these techniques, electrodeposition is the most suitable technique for nanostructured thin films from aqueous solution served as samples under investigation. The electrodeposition of metallic layers from aqueous solution is based on the discharge of metal ions present in the electrolyte at a cathodic surface (the substrate or component.) The metal ions accept an electron from the electrically conducting material at the solid- electrolyte interface and then deposit as metal atoms onto the surface. The electrons necessary for this to occur are either supplied from an externally applied potential source or are surrendered by a reducing agent present in solution (electroless reduction). The metal ions themselves derive either from metal salts added to the solution, or by the anodic dissolution of the so-called sacrificial anodes, made of the same metal that is to be deposited at the cathode.