What is the Difference Between Conducting and Non Conducting Polymers?
🆚 Go to Comparative Table 🆚The key difference between conducting and non-conducting polymers lies in their ability to conduct electricity. Conducting polymers are materials that can conduct electricity, while non-conducting polymers are electrically insulating materials. Here are some key points to differentiate between the two:
- Conducting Polymers: These polymers have backbones of contiguous sp2 hybridized carbon centers, allowing them to conduct electricity. One valence electron on each center resides in a pz orbital, which overlaps with neighboring orbitals, forming a continuous π-band that allows electron transport. Examples of conducting polymers include polyacetylene and polyaniline.
- Non-Conducting Polymers: These polymers do not have the ability to conduct electricity. They are mainly used as insulating materials in various applications. Examples of non-conducting polymers include polyethylene and polystyrene.
In summary, the primary difference between conducting and non-conducting polymers is their ability to conduct electricity, with conducting polymers having contiguous sp2 hybridized carbon centers that allow for electron transport, and non-conducting polymers lacking this structure.
Comparative Table: Conducting vs Non Conducting Polymers
The main difference between conducting and non-conducting polymers is their ability to conduct electricity. Here is a table comparing the key differences between conducting and non-conducting polymers:
| Property | Conducting Polymers | Non-Conducting Polymers |
|---|---|---|
| Electrical Conductivity | Can conduct electricity due to the presence of extended π conjugation along the molecular backbone | Cannot conduct electricity, as they lack extended π conjugation |
| Electrochromic Properties | May display electrochromic properties, causing color changes due to redox transformations | Usually do not display electrochromic properties |
| Applications | Used in organic printable electronics, such as OLEDs and organic photovoltaics (OPVs) | Limited applications in electronic devices |
| Processing | Easy to process, mainly by dispersion | May require different processing techniques |
Conducting polymers, such as poly(3-alkylthiophenes), are widely used in solar cells and transistors. Non-conducting polymers, on the other hand, have more limited applications in electronic devices.
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