Research and Development (R&D) is the engine of innovation across scientific disciplines. For chemists and material scientists, having access to unique and well-characterized chemical compounds is fundamental to exploring new frontiers. 3-(1,1-Dimethylethyl)-2,5-dihydroxybenzaldehyde, identified by CAS 192803-37-5, is a compound whose distinctive structure and properties make it a valuable subject for R&D. This article highlights its significance and discusses how researchers can acquire it from reliable suppliers, especially global manufacturers in China.

Unique Structural Features for Research
3-(1,1-Dimethylethyl)-2,5-dihydroxybenzaldehyde (C11H14O3) is an aromatic aldehyde possessing a combination of functional groups that are of significant interest in chemical research. The key features include:

  • Phenolic Hydroxyl Groups: These groups are known for their antioxidant capabilities, enabling the compound to act as a free radical scavenger. This property is of interest in studies related to oxidative stress, material degradation, and protective agents.
  • Aldehyde Group: This reactive moiety allows for a wide array of chemical transformations, serving as a versatile handle for further functionalization or incorporation into larger molecular structures.
  • Tert-Butyl Group: The presence of this bulky group introduces steric effects that can influence reaction kinetics, regioselectivity, and the overall physical properties of derivatives.
  • Aromatic Core: The benzene ring provides a stable scaffold and contributes to the electronic properties of the molecule.

R&D Applications and Potential Discoveries
The specific characteristics of CAS 192803-37-5 lend themselves to several promising R&D avenues:

  • Development of Novel Antioxidants: Researchers can modify this compound to create new antioxidant agents with enhanced efficacy, stability, or specific delivery profiles for use in pharmaceuticals, food preservation, or material science.
  • Synthesis of Bioactive Compounds: Its role as a pharmaceutical intermediate means it can be a starting point for synthesizing novel drug candidates. Its potential anti-inflammatory properties, as suggested by some literature, make it particularly interesting for medicinal chemistry research.
  • Catalyst Design: The ability to form chiral Schiff base ligands from this benzaldehyde derivative is a significant area for catalysis research. Enantioselective catalysts are crucial for producing chiral compounds, which are prevalent in pharmaceuticals and agrochemicals.
  • Material Science Research: Its potential as a monomer or additive in polymer synthesis or modification could lead to new materials with tailored properties, such as enhanced thermal stability or antioxidant capabilities.

Procurement for Research Purposes
For researchers, accessing high-purity chemicals in research quantities is vital. When looking to buy 3-(1,1-Dimethylethyl)-2,5-dihydroxybenzaldehyde (CAS 192803-37-5) for R&D, several factors are important:

  • Supplier Reliability: Partnering with suppliers known for consistent quality and accurate product specifications is essential for reproducible research outcomes. Manufacturers in China often offer competitive pricing and a wide range of research chemicals.
  • Purity Verification: Always obtain a Certificate of Analysis (COA) to confirm the purity and identity of the compound. Researchers often require high purity grades (98%+) for reliable experimental results.
  • Sample Availability: The ability to purchase small, research-scale quantities or obtain samples is beneficial for initial screening and feasibility studies.
  • Technical Support: Some suppliers can offer technical data sheets or limited support that can be valuable for researchers exploring new applications.

Engaging with experienced chemical manufacturers and suppliers ensures that R&D professionals have access to the critical building blocks like 3-(1,1-Dimethylethyl)-2,5-dihydroxybenzaldehyde needed to drive scientific discovery. By carefully selecting your supply partners, you can focus on the innovation that matters most.