P T4 PEDOT:PSS
CAS Number 155090-83-8
Materials, Organic Conductors, PEDOT:PSS and PEDOT Polymer Blends
High Conductivity and High Optical Transparency
Applications in transparent electrodes, touch screen display, sensors, e-writers, dissipative and antistatic coatings, and antistatic packaging trays
Specifications | MSDS | Resources and Support
P T4 PEDOT:PSS (CAS number 155090-83-8), an aqueous PEDOT:PSS dispersion with high conductivity and high optical transparency, is designed for conductive formulations. The aqueous colloidal dispersion of P T4 can easily provide coatings and films on various substrates through spin coating, spray coating, slot die coating or dip coating. P T4 PEDOT:PSS coating maintains its electrical conductivity with high mechanical flexibility and optical transparency.
While compared with indium tin oxide (ITO) thin films on the plastic, P T4 PEDOT:PSS is superior for its flexibility and chemical stability as the top transparent electrode for touch screen displays, as well as liquid crystal writing pads. P T4 PEDOT:PSS can also be coated on PET, polycarbonate (PC), or glass films for antistatic/conductive protective layers, electrostatic discharge (ESD), and dissipative applications.
Versatile Use
Wide range of applications
High Quality
Quality formulation and tailored high conductivity
Excellent Performance
High conductivity and optical transparency
Worldwide Shipping
Quick and reliable shipping
Technical Data
Product Name | Clevios™ P T4 |
---|---|
Solvent | Water |
Composition | PEDOT:PSS |
Solid Content | 1.2 – 1.4 wt.% |
Sheet Resistance | 100 – 1000 Ω/sq, 1000 - 104 Ω/sq, 10E4 - 10E6 Ω/sq, +10E6 Ω/sq |
Conductivity | Relatively high conductivity |
Particle Size Distribution | N/A |
Viscosity | 30 – 60 mPa.s at 20°C (100 s-1) |
pH Value | N/A |
Packaging | 100 ml of solution sealed in a light resistant bottle with temperature indicator |
Storage | 3 – 5 °C |
Spin Speed Data
P T4 PEDOT:PSS Spin Speed / Film Thickness
MSDS Document
Resources and Support
For the deposition of thin films of PEDOT:PSS on a freshly prepared surface, we recommend using a vacuum-free spin coater and following this five-step process:
Read more...PEDOT synthesis involves the oxidative chemical or electrochemical polymerization of EDOT monomer. The choice of counterions and polymerization method significantly affects the conductivity, work function, and stability of the resulting PEDOT polymer.
Read more...