| product_name | Bio-2-octyl acrylate |
| CAS_number | 2664-55-3 |
| formula | C11H20O2 |
| molar_mass | 184.28 g/mol |
| density | 0.87 g/cm³ |
| boiling_point | 240 °C |
| flash_point | 100 °C |
| vapor_pressure | 0.06 mmHg at 25 °C |
| refractive_index | 1.434 |
| viscosity | 2.6 mPa·s |
| solubility | Insoluble in water |
| appearance | Colorless liquid |
| odor | Characteristic ester-like odor |
| autoignition_temperature | 260 °C |
What is Bio-2-octyl acrylate?
Bio-2-octyl acrylate is a biocompatible and biodegradable
material commonly used in various medical applications such as tissue engineering, drug
delivery, and wound healing.
How is Bio-2-octyl acrylate different from other
acrylates?
Bio-2-octyl acrylate stands out from other acrylates due to its unique
properties, including high biocompatibility, good biodegradability, and excellent mechanical
strength. These qualities make it an ideal choice for medical applications where safety and
effectiveness are paramount.
Can Bio-2-octyl acrylate be used in tissue
engineering?
Yes, Bio-2-octyl acrylate is widely used in tissue engineering for its
ability to support cell growth and tissue regeneration. Its biocompatibility ensures that it
does not elicit any harmful reactions in the body, making it a safe option for implantable
medical devices and scaffolds.
How does Bio-2-octyl acrylate help in wound
healing?
Bio-2-octyl acrylate promotes wound healing by providing a supportive
environment for cell proliferation and tissue regeneration. Its biodegradable nature allows
it to gradually break down in the body, minimizing the risk of inflammation or rejection.
This accelerates the healing process and helps in the formation of healthy new tissue.
Is Bio-2-octyl acrylate suitable for drug delivery systems?
Yes, Bio-2-octyl
acrylate is an excellent choice for drug delivery systems due to its biocompatibility and
controlled release properties. It can be used to encapsulate drugs and deliver them to
specific sites in the body, ensuring targeted treatment and minimal side effects.
What are the advantages of using Bio-2-octyl acrylate in medical
applications?
The advantages of using Bio-2-octyl acrylate in medical applications
include its biocompatibility, biodegradability, mechanical strength, and versatility. It
offers a safe and effective solution for a wide range of medical needs, from tissue
engineering to drug delivery and wound healing.
How can Bio-2-octyl acrylate
contribute to the field of regenerative medicine?
Bio-2-octyl acrylate plays a crucial
role in regenerative medicine by providing a platform for developing advanced therapies and
treatments. Its ability to support cell growth and tissue regeneration enables researchers
to create innovative solutions for repairing and replacing damaged tissues in the body.
What are the potential future applications of Bio-2-octyl acrylate in
medicine?
The potential future applications of Bio-2-octyl acrylate in medicine are vast,
ranging from regenerative medicine to personalized healthcare. Its unique properties make it
an attractive option for developing cutting-edge medical technologies, including
organ-on-a-chip systems, 3D bioprinting, and patient-specific implants.
How is
Bio-2-octyl acrylate manufactured and processed for medical use?
Bio-2-octyl acrylate is
typically manufactured through a polymerization process that involves the synthesis of
monomers and the formation of long polymer chains. Once produced, it can be processed into
various forms such as films, hydrogels, or microspheres for medical use. Strict quality
control measures ensure its safety and efficacy in healthcare applications.
