The Thermoplastic Carbon Paste is an advanced conductive material designed for long-term stability and enhanced performance in Perovskite Solar Cells and other energy applications. With a low-temperature drying capability (<100°C) and a sheet resistance of <10 Ω/sq at 25µm thickness, this paste ensures efficient charge transport, minimal energy loss, and superior adhesion.
Key Features & Benefits:
✔ Low-Temperature Drying: Cures quickly at below 100°C, making it ideal for various industrial and research applications.
✔ High Conductivity: Provides less than 10 Ω/sq sheet resistance, ensuring optimal electrical performance.
✔ Versatile Application: Suitable for screen printing and blade coating processes.
✔ Durable & Reliable: Engineered for long-term stability, ensuring excellent adhesion, hardness (7B), and chemical resistance.
✔ Optimized for Solar Cells: Enhances charge transfer efficiency in Perovskite Solar Cells, offering a cost-effective alternative to traditional gold sputtering.
Applications:
- Perovskite Solar Cells – Improves power conversion efficiency and charge transport.
- Printed Electronics – Used for flexible circuits and advanced conductive coatings.
- Energy Storage & Battery Electrodes – Ideal for developing high-performance energy solutions.
- Research & Development – Trusted in laboratories for innovative photovoltaic and energy applications.
This high-performance thermoplastic carbon paste is an ideal solution for researchers, engineers, and manufacturers seeking a durable, efficient, and low-temperature drying conductive material.
