[ij] [ij] [ij] 
Email id

Year : 2020, Volume : 13, Issue : 5
First page : ( 360) Last page : ( 364)
Print ISSN : 0974-4169. Online ISSN : 0974-4150. Published online : 2020  15.
Article DOI : 10.5958/0974-4150.2020.00068.1

Synthesis, Characterization, and Gas Sensing performance of Nanometer TiO2 thick film by Hydrothermal method

Pitrubhakta J. R.1, Kere Tushar A.2, Shinde Shilpa S.3, Soni Suyog A.1, Jadhav V. R.4,*

1K. K. Wagh ACS and CS College Pimplas Ramache, 422301, Niphad, NashikMS (India)

2K. K. Wagh ACS College Saraswatinagar, Nashik-422003, Nashik, MS (India),

3K. K. Wagh ACS and CS College Chandori, 422201, Niphad, Nashik, MS (India)

4K. K. Wagh ACS College Pimpalgaon (B), 422209, Niphad, Nashik, MS (India)

*Corresponding Author E-mail: mevikramjadhav@gmail.com

Received:  22  ,  2020; Accepted:  01  ,  2020.


In this study, the hydrothermal synthesis, electrical properties, and gas sensing performance of TiO2 thick film were studied. The thick film was prepared by using hydrothermal and screen painting technology and the characterization were done by using ultraviolet spectroscopy (UV) and scanning electron microscopy (SEM). The gas sensitivity and electrical properties of the TiO2 thick film was prepared and measures, it gives greatest amount of gas response for liquified petroleum gas (LPG) and hydrogen Sulphide (H2S) and the response is increases along hydrothermal synthesis time.



Gas Sensing, LPG, Thick film, Titanium dioxide.


║ Site map ║ Privacy Policy ║ Copyright ║ Terms & Conditions ║ Page Rank Tool
773,235,744 visitor(s) since 30th May, 2005.
All rights reserved. Site designed and maintained by DIVA ENTERPRISES PVT. LTD..
Note: Please use Internet Explorer (6.0 or above). Some functionalities may not work in other browsers.