Abstract
AbstractMesoporous silica has attracted increasing interest due to the pandemic spreading of the viral infection in recent years. These smart materials have many advantages as high loading capacity, high surface area, and unique morphology making them great materials for smart drug carriers. In this review, I summarized the synthesis of Ultra-Porous Drug Nano-Carriers in recent years. Factors affecting (mesoporous nanoparticles) MSN Synthesis as surfactants, Co-surfactants, and solvents were mentioned in the full description and targeting approaches. Types of silica nanoparticles such as Mesoporous SBA-1 silicas, Mesoporous SBA-2 silicas, and hybrid mesoporous materials are also shown in a detailed manner. Future research efforts are also highlighted for AI-based techniques aimed at more accurate tissue engineering prediction and operation optimization in drug carrier-based processes.
Funder
National Research Centre Egypt
Publisher
Springer Science and Business Media LLC
Subject
Electronic, Optical and Magnetic Materials
Reference207 articles.
1. Wang H et al (2011) Shape- and size-controlled synthesis in hard templates: sophisticated chemical reduction for mesoporous monocrystalline platinum nanoparticles. J Am Chem Soc 133:14526–14529
2. Xu Y, Jin S, Xu H, Nagai A, Jiang D (2013) Conjugated microporous polymers: design, synthesis and application. Chem Soc Rev 42:8012–8031
3. Sher P, Ingavle G, Ponrathnam S, Pawar AP (2007) Low density porous carrier based conceptual drug delivery system. Microporous Mesoporous Mater 102:290–298
4. Brownscombe TF, Bass RM, Corley LS (1993) Process for preparing low density porous crosslinked polymeric materials. https://patents.google.com/patent/EP0712425A1/en
5. Nagai K, Musgrave CSA, Nazarov W (2018) A review of low density porous materials used in laser plasma experiments. Phys Plasmas 25:030501