P1.3.2 Development of Optical pH Sensor using Conducting Polyaniline -Wrapped Multiwalled Carbon Nanotubes (PANI-MWCNTs) Nanocomposite

doi:https://doi.org/10.5162/imcs2012/p1.3.2

Open AccessArticle10.5162/imcs2012/p1.3.2

P1.3.2 Development of Optical pH Sensor using Conducting Polyaniline -Wrapped Multiwalled Carbon Nanotubes (PANI-MWCNTs) Nanocomposite

Milind V. Kulkarni,Bharat B. Kale-2012-01-01-Proceedings IMCS 2012

TL;DRAbstract

Highly transparent and water soluble nanocomposite of conducting Polyaniline wrapped -Multi-Walled Carbon Nanotubes (PANI -MWCNTs) was synthesized by an in-situ chemical polymerization method using sulphonic acid as a dopant. MWCNTs were functionalized prior to their use and then polymerized using ammonium per sulphate as an oxidizing agent. The nanocomposite was subjected for physico-chemical characterization using spectroscopic (UV-Vis and FT-IR), FE-SEM and thermal analysis. The UV-Visible spectrum of the salt phase (dark green) of the PANI-MWCNTs nanocomposite shows a free carrier tail with increasing absorption at higher wavelength, which confirms the presence of conducting emeraldine salt phase of the polyaniline and is further supported by FT-IR analysis. However, the base form (deep blue) of the nanocomposite shows a sharp peak at 600 nm representing an insulating pernigraniline phase of the polymer. The FE-SEM image shows the uniform wrapping/coating of the polyaniline over fu

Chat with Paper

AI Agents for this Paper

Highly transparent and water soluble nanocomposite of conducting Polyaniline wrapped -Multi-Walled Carbon Nanotubes (PANI -MWCNTs) was synthesized by an in-situ chemical polymerization method using sulphonic acid as a dopant. MWCNTs were functionalized prior to their use and then polymerized using ammonium per sulphate as an oxidizing agent. The nanocomposite was subjected for physico-chemical characterization using spectroscopic (UV-Vis and FT-IR), FE-SEM and thermal analysis. The UV-Visible spectrum of the salt phase (dark green) of the PANI-MWCNTs nanocomposite shows a free carrier tail with increasing absorption at higher wavelength, which confirms the presence of conducting emeraldine salt phase of the polyaniline and is further supported by FT-IR analysis. However, the base form (deep blue) of the nanocomposite shows a sharp peak at 600 nm representing an insulating pernigraniline phase of the polymer. The FE-SEM image shows the uniform wrapping/coating of the polyaniline over fu

Keywords

PolyanilineNanocompositeMaterials scienceCarbon nanotubeDopantChemical engineeringPolymerizationIn situ polymerization

Chat

Click to start Chat