The Science Behind Dibutyl Adipate (105-99-7): Properties and Benefits for Formulators
Dibutyl Adipate, scientifically known as Dibutyl hexanedioate and bearing the CAS number 105-99-7, is a chemical compound whose beneficial properties are well-documented and highly valued by formulators across various industries. NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to supplying Dibutyl Adipate that meets exacting quality standards, ensuring optimal performance in its diverse applications. Understanding the dibutyl adipate CAS 105-99-7 solubility and other physical characteristics is fundamental for effective formulation.
Physically, Dibutyl Adipate is described as a colorless, transparent, oily liquid with a faint odor. Its molecular formula is C14H26O4, and its molecular weight is 258.35 g/mol. A key aspect of its chemical behavior is its solubility profile: it is soluble in most organic solvents but exhibits very poor solubility in water. This characteristic is particularly advantageous in cosmetic formulations, especially sunscreens, where it aids in dissolving UV filters. Furthermore, Dibutyl Adipate is noted for not absorbing radiation in the ultraviolet region, which is a significant benefit for its use in sun protection products.
Safety assessments have consistently shown Dibutyl Adipate to be non-toxic in acute oral or dermal toxicity tests. It is considered a low-level skin and eye irritant and a non-sensitizer, making it a safe ingredient for use in personal care products when formulated within recommended concentrations. Studies have also indicated that it does not cause pore clogging (comedogenicity). The regulatory bodies have recognized its safety for cosmetic applications, further solidifying its position as a reliable ingredient.
NINGBO INNO PHARMCHEM CO.,LTD. ensures that the Dibutyl Adipate we supply possesses high purity and consistent quality, crucial for formulators who depend on predictable ingredient behavior. When considering where to buy Dibutyl Adipate, NINGBO INNO PHARMCHEM CO.,LTD. offers the scientific rigor and reliable supply chain necessary for your product development needs.
Physically, Dibutyl Adipate is described as a colorless, transparent, oily liquid with a faint odor. Its molecular formula is C14H26O4, and its molecular weight is 258.35 g/mol. A key aspect of its chemical behavior is its solubility profile: it is soluble in most organic solvents but exhibits very poor solubility in water. This characteristic is particularly advantageous in cosmetic formulations, especially sunscreens, where it aids in dissolving UV filters. Furthermore, Dibutyl Adipate is noted for not absorbing radiation in the ultraviolet region, which is a significant benefit for its use in sun protection products.
Safety assessments have consistently shown Dibutyl Adipate to be non-toxic in acute oral or dermal toxicity tests. It is considered a low-level skin and eye irritant and a non-sensitizer, making it a safe ingredient for use in personal care products when formulated within recommended concentrations. Studies have also indicated that it does not cause pore clogging (comedogenicity). The regulatory bodies have recognized its safety for cosmetic applications, further solidifying its position as a reliable ingredient.
NINGBO INNO PHARMCHEM CO.,LTD. ensures that the Dibutyl Adipate we supply possesses high purity and consistent quality, crucial for formulators who depend on predictable ingredient behavior. When considering where to buy Dibutyl Adipate, NINGBO INNO PHARMCHEM CO.,LTD. offers the scientific rigor and reliable supply chain necessary for your product development needs.
Perspectives & Insights
Future Origin 2025
“Studies have also indicated that it does not cause pore clogging (comedogenicity).”
Core Analyst 01
“The regulatory bodies have recognized its safety for cosmetic applications, further solidifying its position as a reliable ingredient.”
Silicon Seeker One
“ensures that the Dibutyl Adipate we supply possesses high purity and consistent quality, crucial for formulators who depend on predictable ingredient behavior.”