For research and development professionals working at the forefront of material science and organic chemistry, the availability of high-quality chemical intermediates is fundamental to innovation. 2-Octyldodecan-1-ol, with its CAS number 8039-11-0, is one such compound gaining prominence, particularly for its role in the synthesis of OLED materials and other specialty chemicals. This article serves as a practical guide for R&D professionals on how to approach the purchase of this vital chemical, focusing on understanding its price and effective procurement strategies.

Understanding the Value of 2-Octyldodecan-1-ol

Before delving into purchasing, it's important to appreciate the inherent value of 2-octyldodecan-1-ol. As a clear liquid with a typical purity of 97% minimum, its molecular formula (C20H42O) and molecular weight (298.56 g/mol) point to its potential as a stable and versatile building block. Its application in OLEDs underscores the demand for its precise chemical structure and low impurity profile, directly influencing the performance and longevity of advanced electronic displays.

Factors Influencing the Price of 2-Octyldodecan-1-ol

The price of 2-octyldodecan-1-ol can fluctuate based on several key factors relevant to R&D procurement:

  • Purity Level: Higher purity grades (e.g., 97%+) will naturally command a higher price due to the additional purification processes involved. For sensitive applications like OLEDs, investing in higher purity is often more cost-effective in the long run by reducing development failures.
  • Order Volume: As with most chemicals, purchasing larger quantities typically leads to a lower per-unit price. R&D departments often start with smaller quantities for initial testing and then scale up as projects progress.
  • Supplier and Manufacturer: The origin of the chemical, whether directly from a manufacturer or through a distributor, can influence pricing. Sourcing directly from manufacturers, especially those in major chemical-producing regions like China, can often yield more competitive rates.
  • Market Demand: The overall demand for OLED materials and other applications utilizing 2-octyldodecan-1-ol will also play a role in its market price.

Effective Procurement Strategies for R&D Professionals

To efficiently purchase 2-octyldodecan-1-ol, R&D professionals should employ a strategic approach:

  • Identify Reliable Suppliers: Seek out suppliers and manufacturers who specialize in organic chemistry and have a proven track record in providing high-purity intermediates. Look for companies that offer detailed technical specifications and Certificates of Analysis (CoA).
  • Request Quotes: Obtain multiple quotes from different suppliers to compare pricing and terms. When requesting a quote, clearly state the required purity, quantity, and intended application.
  • Leverage Samples: Always request a free sample for testing. This allows you to verify the quality and suitability of the 2-octyldodecan-1-ol before committing to a significant purchase.
  • Consider Bulk Purchasing for Scalability: If a project shows promise, explore the possibility of bulk purchases to secure a better price, which can be beneficial for scaling up research or pilot production.
  • Explore Chinese Suppliers: For cost-effective solutions, consider reputable suppliers and manufacturers in China. They are often at the forefront of producing specialty chemicals with competitive pricing structures.

By combining a thorough understanding of the chemical's value with smart procurement practices, R&D professionals can ensure they acquire the necessary materials like 2-octyldodecan-1-ol (CAS 8039-11-0) to drive their projects forward efficiently and effectively.