Polydimethylsiloxane (PDMS) is a type of silicone polymer that is commonly used in a variety of applications, such as in the production of lubricants, coatings, sealing materials, and insulation. Methacryloxypropyl terminated polydimethylsiloxane (MPM) is a specific type of PDMS polymer that is characterized by its unique chemical structure.
The methacryloxypropyl group in MPM is responsible for its unique properties, such as its ability to form strong crosslinks when exposed to UV light or other curing agents. This makes MPM a useful component in coatings and sealants, as the resulting crosslinks provide improved strength and durability.
Methacryloxypropyl terminated polydimethylsiloxane is widely used in a variety of applications, such as in the production of silicone coatings, sealants, and adhesives. It is also used in the production of medical implants, as it has been shown to be biocompatible and relatively non-toxic.
| Catalog Number | Product Name | CAS NO. | INQUIRY |
|---|---|---|---|
| ACM58130033-1 | Polydimethylsiloxane, methacryloxypropyl terminated; 1000 cSt | 58130-03-3 | Inquiry |
| ACM58130033-2 | Polydimethylsiloxane, methacryloxypropyl terminated; 4 - 6 cSt | 58130-03-3 | Inquiry |
| ACM58130033-3 | Polydimethylsiloxane, methacryloxypropyl terminated; 50 - 90 cSt | 58130-03-3 | Inquiry |
| ACM58130033-4 | Polydimethylsiloxane, methacryloxypropyl terminated; 8 - 14 cSt | 58130-03-3 | Inquiry |
| ACM58130033-5 | Polydimethylsiloxane, methacryloxypropyl terminated;125 - 250 cSt | 58130-03-3 | Inquiry |
Zero VOC and no off-odor, methacryloxypropyl terminated polydimethylsiloxane (MPM) is a popular finishing agent for the Coating and Sealants Industries. The first reaction between MPM and minerals forms siloxanes and polyurethane linkages. The second reaction between the unexposed polyurethanes on the surface of the substrate and those MPM develops UV-bonded modifiers that fill in any small crevices or gaps, creating a less porous surface that is more resistant to scratches, stains, and chemicals.
MPM can also be blended with UV-radiation curable coatings to enhance their curing behavior and improve their UV stability. It improves physical properties such as hardness, scratch resistance, and adhesion. In addition, MPM also has excellent resistance to water, chemicals, and salt corrosion, making it suitable for a wide range of outdoor applications, including coatings for high-performance solar panels. MPM can also be used to enhance the bond strength of injection-molded coatings by providing an elastic coating with lower coefficient of friction to reduce heat generation.
Methacryloxypropyl terminated polydimethylsiloxane (MPM) has been extensively researched and validated as a safe and effective material for medical implants. This material has excellent biocompatibility and a low toxicity, which makes it ideal for use in implants.
MPM has been the preferred material for coating and adhering biological tissues and organs that need support or for making implants with specialized surfaces that enhance cell adhesion and bioactivity, leading to a better integration into the body. Additionally, MPM has also been used as a therapeutic agent in cancer treatment such as the photothermal therapy for cancer treatment.
There has been an increasing demand for sustainable and eco-friendly materials in various industries, and methacryloxypropyl terminated polydimethylsiloxane (MPM) is considered to be a sustainable alternative to traditional silicones.
MPM can be produced using renewable resources, such as vegetable oil or corn starch, and is biodegradable. It has also been shown to have lower environmental impact during production and disposal compared to other silicones.
In the automotive industry, the replacement of traditional silicones with silicone alternatives such as MPM has been undertaken in efforts to reduce carbon emissions. In addition, MPM has also been used in coatings that have significantly reduced the use of VOC, which is a significant contributor to environmental pollution.
Solar cells are a vital component of modern energy systems, and methacryloxypropyl terminated polydimethylsiloxane (MPM) has shown promise in this area. MPM has been extensively studied to evaluate its potential in solar cell applications due to its ability to selectively absorb light in the solar spectrum.
The electronic properties of MPM make it a promising material for solar cells. MPM has a wide range of electrical resistivities, making it possible to achieve the desired electrical conductivity by adding MPM to the solar cell material. MPM can also be modified to enhance its capacity to be non-toxic in cells, which is vital for sustainability in manufacturing. Additionally, MPM has also shown potential as an anti-electronic leakage additive, which is a major problem in solar cells.
MPM can be utilized to improve the solar cell performances such as more efficient light trapping in the cell, fill factor increase, as well as capacity to enhance the performance stability of solar cells. MPM is currently under development to improve its thermal stability and its structure with having more hydrophobic groups. Additionally, researchers are exploring the possibility of combining MPM with other materials, such as inorganic or organic materials, to form composite materials that can be used in solar cells.
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