AI Article Synopsis
- Silica aerogel, known for its advanced thermal insulation properties, has potential uses beyond its current applications, particularly in dental restoration.
- By creating silica aerogel/resin composites, researchers found that a specific ratio of resin components and a 12.5% silica aerogel content significantly improved mechanical strength, achieving a flexural strength of 62.9546 MPa.
- The resultant composite also exhibited exceptional antibacterial properties, making it suitable for dental materials and opening up new possibilities for silica aerogel use in biomedical applications.
Article Abstract
As the most advanced aerogel material, silica aerogel has had transformative industrial impacts. However, the use of silica aerogel is currently limited to the field of thermal insulation materials, so it is urgent to expand its application into other fields. In this work, silica aerogel/resin composites were successfully prepared by combining silica aerogel with a resin matrix for dental restoration. The applications of this material in the field of dental restoration, as well as its performance, are discussed in depth. It was demonstrated that, when the ratio of the resin matrix Bis-GMA to TEGDMA was 1:1, and the content of silica aerogel with 50 μm particle size was 12.5%, the composite achieved excellent mechanical properties. The flexural strength of the silica aerogel/resin composite reached 62.9546 MPa, which was more than five times that of the pure resin. Due to the presence of the silica aerogel, the composite also demonstrated outstanding antibacterial capabilities, meeting the demand for antimicrobial properties in dental materials. This work successfully investigated the prospect of using commercially available silica aerogels in dental restorative materials; we provide an easy method for using silica aerogels as dental restorative materials, as well as a reference for their application in the field of biomedical materials.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9323775 | PMC |
| http://dx.doi.org/10.3390/molecules27144414 | DOI Listing |
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