For chemists and material scientists working at the forefront of advanced material development, a deep understanding of interfacial properties is key. As a dedicated chemical manufacturer and supplier, we provide essential building blocks for innovation, including specialized molecules like 3-BPIC (CAS: 3038707-49-9). This article aims to shed light on the chemical properties and applications of 3-BPIC, highlighting its importance as an interfacial material.

Interfacial phenomena are critical in numerous technological applications, from catalysis and coatings to electronics and sensors. Self-assembled monolayers (SAMs) represent a powerful tool for controlling and functionalizing surfaces at the molecular level. 3-BPIC, a phosphonic acid derivative, is a prime example of a molecule engineered for SAM formation, offering precise control over surface characteristics.

Chemical Profile of 3-BPIC

The chemical identity of 3-BPIC is crucial for its performance. Its CAS number is 3038707-49-9, and its chemical formula is C24H26N2O6P2, with a molecular weight of 500.42 g/mole. The presence of two phosphonic acid groups (-PO(OH)2) is fundamental to its ability to chemisorb onto various inorganic surfaces, such as metal oxides and certain metals, forming stable covalent bonds. This strong anchoring capability ensures the formation of robust and well-ordered monolayers.

From a manufacturing perspective, the synthesis and purification of 3-BPIC are critical. We ensure that our product is consistently supplied as an off-white solid, a testament to its purity and quality. Furthermore, its electronic properties, particularly the HOMO/LUMO levels (-5.25 eV/-0.96 eV), are well-defined. These energy levels are vital for applications in organic electronics, where they dictate the efficiency of charge injection and transport across interfaces.

Key Applications and Benefits of Using 3-BPIC

When researchers and developers choose to buy 3-BPIC, they are leveraging its unique properties for several high-impact applications:

  • Surface Modification: The ability to form ordered SAMs allows 3-BPIC to tailor surface energy, wettability, and chemical reactivity. This is crucial for applications in chromatography, coatings, and biomaterial interfaces.
  • Organic Electronics: In OLEDs, OFETs, and OPVs, 3-BPIC functions as an interfacial layer to improve charge carrier injection and extraction, thereby enhancing device efficiency and stability.
  • Corrosion Inhibition: Phosphonates are known for their ability to form protective layers on metal surfaces, offering potential as corrosion inhibitors.

As a supplier, we aim to empower our clients with materials that drive innovation. The advantages of sourcing 3-BPIC from a reputable manufacturer include:

  • Guaranteed Purity and Consistency: Ensuring reliable performance in your research or production.
  • Technical Data and Support: Access to specifications like HOMO/LUMO levels and expert advice on application.
  • Direct Sourcing: Competitive pricing and a secure supply chain from a trusted source in China.

For chemists and material scientists requiring high-performance interfacial materials, understanding the chemical nuances of molecules like 3-BPIC is essential. We invite you to contact us for a quote and sample to explore the potential of 3-BPIC in your next project.