Novel methyl‐orange assisted core‐shell polyaniline‐silver nanosheets for highly sensitive ammonia chemiresistors

Novel methyl‐orange assisted core‐shell polyaniline‐silver nanosheets for highly sensitive ammonia chemiresistors

A cost‐effective, eco‐friendly, one‐pot synthesis of a new class of homogenous core‐shell polyaniline‐silver nanocomposite was fabricated with the assistance of supramolecular aggregates of amphiphilic methyl‐orange (MO) and oxidant ions of silver nitrate (AgNO3). The morphology of nanocomposite tra...

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Bibliographic Details
Published in:Journal of applied polymer science Vol. 138; no. 43
Main Authors: Chaudhary, Vishal, Chavali, Murthy
Format: Journal Article
Language:English
Published: Hoboken, USA John Wiley & Sons, Inc 15-11-2021
Wiley Subscription Services, Inc
Subjects:
Ammonia
ammonia sensor
core‐shell structure
Image contrast
Materials science
Morphology
nanocomposite
Nanocomposites
Nanosheets
Oxidizing agents
Polyanilines
polyaniline‐silver
Polymers
Room temperature
Selectivity
Shells
Silver nitrate
Spherical shells
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Summary:A cost‐effective, eco‐friendly, one‐pot synthesis of a new class of homogenous core‐shell polyaniline‐silver nanocomposite was fabricated with the assistance of supramolecular aggregates of amphiphilic methyl‐orange (MO) and oxidant ions of silver nitrate (AgNO3). The morphology of nanocomposite transforms from spherical (core‐shell type: PA‐1) to plate‐like polygonal particles (PA‐2) with surge in concentration of AgNO3. The strong contrast of the TEM images depicts the presence of silver (Ag) at core and polyaniline (PAN) at the shell. The core‐shell structure of the synthesized nanocomposite was confirmed using KCN washing technique. The SAED pattern reveals the hexagonal nature of PAN‐Ag hybrid nanosheets with [111] orientation with interplanar spacing around 2.4 Å corresponding to face‐centered‐cubic structure of Ag. The X‐ray diffraction spectra reveal the crystalline nature of the hybrid. Furthermore, the chemiresistors fabricated using the PA nanocomposite was analyzed for ammonia (NH3) monitoring behavior. The fabricated room temperature chemiresistor was found to be highly sensitive (~47.1% sensitivity) towards low concentration (as low as 1 ppm) of NH3 with high selectivity and stability, which opens a new window for fabricating cost‐effective commercial sensors. Fabrication of novel Core shell methyl orange assisted‐ Silver‐Polyaniline Nanocomposites based Ammonia Chemiresistor
Bibliography:Funding information
Department of Science and Technology, Government of India; University of Delhi
ISSN:0021-8995
1097-4628
DOI:10.1002/app.51288