Abstract
Silica aerogel has garnered significant attention in the biomedical field, primarily due to its unique combination of a three-dimensional structure, low density, tunable nanoscale pores, and an extensive surface area. These intrinsic properties render it as an exceptional candidate for advanced drug delivery systems (DDSs). In the realm of medical applications, silica aerogels have demonstrated remarkable potential, especially in nanoscale DDSs. Traditional drug delivery methods, such as capsules and tablets, are often plagued by several drawbacks, including poor bioavailability, lack of target specificity, and multidrug resistance. These limitations necessitate the development of more efficient and targeted drug delivery systems. Recent advancements in the synthesis and modification of silica aerogels have significantly enhanced their biocompatibility and functionalization capabilities. These improvements have further bolstered their potential for controlled release and targeted delivery of therapeutic agents. This study is based on silica aerogel-based nanocarrier systems, providing an in-depth exploration of its fundamental principles, preparation processes, and recent advancements. Based on this, we summarize the drug delivery methods, drug release characteristics, and diverse medical applications of silica aerogels. Additionally, we discuss the challenges and future prospects of applying silica aerogels in drug delivery systems, aiming to provide a comprehensive overview of this field.