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Hindi Research Article
Perfume Spray Analysis of Sn Doped ZnO-CNT NPs and its Morphological Characterizations
Saravanakkumar D1,4, Sivaranjani S1,2, Ayeshamariam A3*, Ravikumar B4, Pandiarajan S4 and Jayachandran M51Research and Development Center, Bharathiar University, Coimbatore, 641046, India
2Department of Physics, SBM College of Engineering Technology, Dindigul, 624001, India
3Department of Physics, Khadir Mohideen College, Adirampattinam, 614701, India
4Department of Physics, Devanga Arts College, Aruppukkottai, 626101, India
5Department of Physics, Sethu Institute of Technology, Pullor, Kariapatti, 626106, India
- *Corresponding Author:
- Ayeshamariam A
Department of Physics
Khadir Mohideen College
Adirampattinam, 614701, India
Tel: 9486738806
Fax: +91-04373-240810
E-mail: aismma786@gmail.com
Received Date: May 04, 2017; Accepted Date: June 02, 2017; Published Date: June 12, 2017
Citation: Saravanakkumar D, Sivaranjani S, Ayeshamariam A, Ravikumar B, Pandiarajan S, et al. (2017) Perfume Spray Analysis of Sn Doped ZnOCNT NPs and its Morphological Characterizations. J Powder Metall Min 6: 168. doi:10.4172/2168-9806.1000168
Copyright: © 2017 Saravanakkumar D, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Abstract
The nano composite Sn doped ZnO-CNT having peculiar property in various physical science fields has been synthesized using simplified cost-effective spray pyrolysis method which forms the nano powder unusually. The work has been bringing to the fundamental study such as XRD and SEM with EDAX using sophisticated instrument to confirm expected elements present with strong bond by evaluating and serious care on diffraction peaks which becomes sharper, surface morphology and energy dispersive amplitude. All crystal phases are anatase formation and no characteristic peaks of Cu metal or oxide at 2θ values which matches with JCPDS 36-1451 corresponding to ZnO and JCPDS 26-1079 corresponding to MWCNT.TEM and SAED investigated the entitled compound that particles size, shape and presence of oxygen under ZnO and CNT remand, 2% of Sn was doped with this source solution.
