CM5762 Perovskite Materials TQ1 (PTQ1)

Perovskite Materials TQ1 Description

Perovskite Materials TQ1, also known as Poly[2,3-bis(3-octyloxyphenyl)quinoxaline-5,8-dyl-alt-thiophene-2,5-diyl], is a polymer semiconductor material primarily used in organic photovoltaics (OPVs) and other electronic applications. TQ1 is designed for use in bulk heterojunction solar cells where it acts as a donor material, facilitating efficient conversion of sunlight into electricity. It has a broad absorption spectrum, which helps in capturing a wide range of the solar spectrum, enhancing the efficiency of solar cells. TQ1 exhibits good charge carrier mobility, which is essential for effective charge transport in photovoltaic applications. It has good thermal stability, which is crucial for the operational longevity and reliability of devices.

Perovskite Materials TQ1 Specifications

Perovskite Materials TQ1 Application

• Organic Solar Cells (OSCs): TQ1 is widely used in the active layer of OSCs, where it blends with acceptor materials like fullerene derivatives (e.g., PCBM) or non-fullerene acceptors to form a bulk heterojunction.
• Organic Photodetectors: Used in photodetectors for sensing light across a broad spectrum, making it suitable for various sensing applications.
• Light-Emitting Devices: Although primarily used in photovoltaic applications, TQ1 can also be explored in light-emitting applications due to its optoelectronic properties.

Perovskite Materials TQ1 Packaging

Our Perovskite Materials TQ1 is carefully handled during storage and transportation to preserve the quality of our product in its original condition.

Perovskite Materials TQ1 FAQs

Q1: How is TQ1 processed?

Solution Preparation: Dissolved in solvents like chlorobenzene or chloroform.

Coating Techniques: Applied using spin coating, printing, or roll-to-roll processing to form thin films.

Q2: What solvents are used to dissolve TQ1 for processing?

Common solvents include chlorobenzene and chloroform, which help in forming a uniform solution for coating processes.

Q3: What are the advantages of using TQ1 in solar cells?

High Efficiency: Contributes to high power conversion efficiencies.

Flexibility: Suitable for flexible and wearable electronic applications.

Cost-Effective Processing: Compatible with low-cost solution processing techniques.

Thermal and Environmental Stability: Ensures durability and reliability.