doi:10.1016/j.cep.2013.09.005

Paper Title

Ultrasound assisted synthesis of polythiophene/SnO2 hybrid nanolatex particles for LPG sensing

Authors

Aniruddha Bhalchandra Pandit

Parag R Gogate

Dipak Vitthal Pinjari

Shirish Sonawane

Keywords

Polythiophene
SnO2 Nanoparticles
Hybrid Nanocomposite
Ultrasound Assisted Synthesis
Oxidative Polymerization
Thiophene Monomers
FTIR Analysis
Synergetic Interaction
Chemical Sensors
LPG Sensing
Room Temperature Detection
p–n Heterojunction
Nanolatex Particles
Gas Sensing
Sensor Sensitivity
Ultrasonic Irradiation
Conjugation Enhancement
Structural Characterization
Conducting Polymers
Nanomaterials
Hybrid Sensor
SnO2 Composites
Smart Sensing Materials
Advanced Functional Materials
Energy-Efficient Sensors

Article Type

Research Article

Journal

Chemical Engineering and Processing - Process Intensification

Research Impact Tools

DOI

10.1016/j.cep.2013.09.005

Issue

Volume : 74 | Page No : 115-123

Published On

December, 2013

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Abstract

Polythiophene (PTP) coated SnO2 nano-hybrid particles have been synthesized using an ultrasound assisted in situ oxidative polymerization of thiophene monomers. Reference experiments have also been performed in the absence of ultrasound to clearly illustrate the effect of ultrasonic irradiations. FTIR results show broadening and shifting of peaks toward lower wave numbers, suggesting better conjugation and chemical interactions between PTP and SnO2 particles. Due to strong synergetic interaction between the SnO2 nanoparticles and polythiophene, this hybrid nanocomposite has the potential application as chemical sensors. It has been observed that PTP/SnO2 hybrid sensors could detect liquefied petroleum gas (LPG) with high sensitivity at room temperature. PTP/SnO2 hybrid composite containing 20 wt% SnO2 showed the maximum sensitivity at room temperature. The sensing mechanism of PTP/SnO2 hybrid nanocomposites to LPG was mainly attributed to the effects of p–n heterojunction between PTP and SnO2.