For R&D scientists and procurement specialists in the electronics manufacturing sector, a deep understanding of the specifications for chemical intermediates is crucial for selecting the right materials. This is particularly true for compounds used in the sophisticated field of photoresist technology. 4-[2-(1-Piperidinyl)ethoxy]benzoic Acid Hydrochloride (CAS 84449-80-9) is one such intermediate, and knowing its precise specifications can make all the difference in achieving desired outcomes.

Key specifications to consider when you plan to buy this compound include its CAS number (84449-80-9), which uniquely identifies it, and its molecular formula (C14H20ClNO3). These identifiers are the first step in ensuring you are sourcing the correct chemical. Beyond these basic identifiers, purity is paramount. For photoresist applications, intermediates often require very high purity levels, typically exceeding 95% or even 98%. This high purity minimizes unwanted side reactions and ensures the consistency and reliability of the final photoresist formulation.

When evaluating a potential supplier, always request a Certificate of Analysis (CoA). This document should detail the assay (purity), the presence of any residual solvents or impurities, and potentially physical properties like melting point or appearance, although for many specialized intermediates, appearance might be less critical than chemical purity. For 4-[2-(1-Piperidinyl)ethoxy]benzoic Acid Hydrochloride, understanding these analytical data points is essential for formulation scientists.

Furthermore, knowledge of the compound's synonyms, such as 4-(2-Piperidinoethoxy)benzoic acid hydrochloride, can be helpful when cross-referencing information or communicating with different suppliers. Understanding the compound's role within a broader synthesis pathway or its specific function in a photoresist formulation will also guide the procurement process.

As a chemical manufacturer in China, we are committed to providing our clients with detailed specifications and high-quality intermediates like CAS 84449-80-9. By focusing on these critical data points, R&D professionals can confidently select and purchase the materials needed to drive innovation in electronic materials and semiconductor manufacturing.