Watson’s Significant Advantages in HAT-CN (CAS No: 105598-27-4)

In modern research and applications of organic optoelectronic materials, HAT-CN (1,4,5,8,9,11-Hexaazatriphenylenehexacarbonitrile, CAS No.: 105598-27-4) has emerged as a critical component of high-efficiency organic optoelectronic devices due to its exceptional electron transport properties and hole injection capabilities. Watson has demonstrated remarkable advantages in this field, bringing revolutionary progress to both scientific research and industrial applications.

What is HAT-CN?

HAT-CN is a polycyano-functionalized organic small molecule that has gained significant attention for its unique properties:

• High Electron Affinity: An excellent electron acceptor, ideal for use in hole injection layers (HILs).
• Chemical Stability: Exhibits superior thermal and photostability, ensuring long-term reliability in devices.
• Versatile Applications: Widely used in organic light-emitting diodes (OLEDs), organic photovoltaics (OPVs), and organic field-effect transistors (OFETs).

However, due to its complex synthesis and purification processes, the supply of high-quality HAT-CN in the market has been limited.

Watson’s Leading Advantages

1. Innovative Synthesis Process

Watson has developed groundbreaking green synthesis technology, significantly improving HAT-CN yield while reducing production costs. This process features:

• Solvent Optimization: Utilizes environmentally friendly solvents to minimize harmful by-products.
• High-Purity Production: Optimized crystallization and separation processes tailored for high-end device applications.

2. Superior Quality Control

Watson has established a rigorous quality control system to ensure that each batch of HAT-CN meets customer requirements:

• Molecular Structure Stability Testing: Ensures molecular integrity through advanced techniques like NMR and mass spectrometry.
• Sublimed-Grade Advantage: Watson employs advanced sublimation techniques to produce sublimed-grade HAT-CN, achieving ultra-high purity levels. This ensures stable performance in devices with stringent requirements, significantly reducing leakage current and enhancing photoelectric conversion efficiency.

Watson has implemented a comprehensive inventory management system to ensure ready stock of HAT-CN products. Whether for small-scale research or large-scale industrial orders, Watson provides rapid response and minimizes delivery cycles, helping customers maintain continuous R&D and production schedules.

Future Applications of HAT-CN

The high-purity HAT-CN provided by Watson has demonstrated exceptional performance across various organic optoelectronic devices. As a core material for hole injection layers (HILs), HAT-CN is widely applied in OLEDs, OPVs, and OFETs. Its unique properties, such as high electron affinity and chemical stability, not only improve charge transport efficiency but also significantly extend device lifespans. With consistent quality and stability, Watson’s HAT-CN has excelled in both fundamental research and industrial applications, particularly in display technologies, next-generation photovoltaic modules, and flexible electronic devices.

As an efficient hole injection material, HAT-CN provides a stable and efficient charge injection interface for the emitting layer, directly impacting device brightness, color uniformity, and power consumption. Thanks to its high purity and low metal impurity levels, Watson’s HAT-CN ensures long-term emission stability and energy efficiency in devices. Whether for high-resolution displays or high-brightness lighting products, the material’s performance has been thoroughly validated, laying a solid foundation for next-generation efficient and eco-friendly display technologies.

In New Photovoltaic Devices

Watson’s HAT-CN offers an ideal electronic material solution for flexible photovoltaic modules and transparent photovoltaic windows. By optimizing interface charge transport, it enhances photoelectric conversion efficiency and exhibits excellent weather resistance, maintaining stable performance even in extreme conditions such as high humidity and temperatures. These advantages make it a popular choice for flexible photovoltaic devices and building-integrated photovoltaics (BIPV), opening up new possibilities in the green energy sector.

References

HAT-CN CAS No: 105598-27-4 on Watson International