Polymethylhydrosiloxane
[CAS# 9004-73-3]

Identification

• Classification: Pharmaceutical intermediate >> API intermediate
• Name: Polymethylhydrosiloxane
• Synonyms: Poly[oxy(methylsilylene)]; PMHS
• Molecular Formula: (CH₃)_3SiO[(_CH3)_HSiO]_nSi(_CH3)₃
• Molecular Weight: 1700-3200
• CAS Registry Number: 9004-73-3
• EC Number: 618-393-8

Properties

• Density: 0.995
• Refractive index: 1.3969-1.3989
• Flash point: 121 ºC
• Water solubility: PRACTICALLY INSOLUBLE

Safety Data

• Safety Description: S24/25

Discovory and Applicatios

Polymethylhydrosiloxane (PMHS) is a silicon-based polymer known for its diverse applications in industrial and chemical processes due to its unique properties. Composed of methylhydrosiloxane repeating units, PMHS is valued for its role as a reducing agent, hydrophobic coating material, and cross-linking agent. The discovery of PMHS can be traced to advancements in silicone chemistry during the mid-20th century when researchers were investigating organosilicon compounds for their reactivity and stability. PMHS quickly gained prominence for its ability to interact with water and alcohols, releasing hydrogen gas in catalytic reactions, which positioned it as an important polymer in chemical synthesis and materials development.

The development of PMHS is part of the broader exploration of silicone polymers that began in the 1940s. Silicones, which are characterized by silicon-oxygen bonds, were recognized for their exceptional stability and versatility. PMHS, with its hydride (Si-H) groups, was synthesized through modification of silicones, giving it reactive properties that allow it to participate in hydrosilylation reactions. These reactions involve the addition of Si-H bonds to unsaturated compounds like alkenes, expanding the utility of PMHS in various fields.

One of the most prominent uses of PMHS is as a reducing agent in organic synthesis. It is commonly employed in metal-catalyzed reductions of aldehydes, ketones, and esters to alcohols. The polymer is considered an efficient and mild alternative to traditional reducing agents like sodium borohydride or lithium aluminum hydride. PMHS is advantageous due to its lower toxicity, ease of handling, and ability to produce non-toxic by-products like silicon dioxide (SiO2). These properties contribute to its use in more environmentally friendly chemical processes.

In material science, PMHS is used as a cross-linking agent in the production of silicone elastomers and resins. The polymer reacts with other siloxane compounds or organic polymers, creating cross-linked materials that exhibit high durability and resistance to heat, chemicals, and environmental stress. This makes PMHS ideal for producing coatings, sealants, and adhesives. In coatings, PMHS imparts hydrophobic properties, protecting materials like textiles, construction surfaces, and electronics from moisture and water damage.

Another important application of PMHS is in the cosmetics and personal care industry. It is used in skincare, hair care products, and lotions, where it acts as a conditioning agent, providing a smooth texture and forming a protective barrier on the skin and hair. This feature enhances moisture retention while maintaining a lightweight, non-greasy feel, a characteristic highly valued in cosmetic formulations.

Additionally, PMHS is employed in electronics as a coating for microchips and electronic components to protect them from moisture and environmental factors. The polymer's ability to form uniform films is essential for ensuring the reliability and longevity of these components. Research is ongoing to explore the potential of PMHS in nanotechnology, particularly in the synthesis of nanoparticles where controlled reactivity is critical for achieving desired material properties.

In summary, polymethylhydrosiloxane is a versatile polymer with a wide range of applications, from organic synthesis to materials science and cosmetics. Its discovery and development have contributed significantly to various industries, offering a unique combination of reactivity, stability, and environmentally friendly properties. As research continues, PMHS is expected to find even more applications in emerging technologies, making it a critical material in the future of industrial and chemical processes.

References

2018. The Chemical and Products Database, a resource for exposure-relevant data on chemicals in consumer products. Scientific Data, 5.
DOI: 10.1038/sdata.2018.125