[1] ZHOU J. Study on aniracetam submicroemulsion(2008).

[2] AMIDON G L, LENNERNÄS H, SHAH V P et al. A theoretical basis for a biopharmaceutic drug classification： the correlation of in vitro drug product dissolution and in vivo bioavailability. Pharmaceutical Research, 12, 413-420(1995).

[3] VALLET-REGÍ M, COLILLA M, IZQUIERDO-BARBA I et al. Mesoporous silica nanoparticles for drug delivery： current insights. Molecules, 23(2017).

[4] GARCÍA-FERNÁNDEZ A, SANCENÓN F, MARTÍNEZ-MÁÑEZ R. Mesoporous silica nanoparticles for pulmonary drug delivery. Advanced Drug Delivery Reviews, 177, 113953(2021).

[5] HE H X, YE S Q, ZHANG W Y et al. Synthesis of magnetic mesoporous silica adsorbents by thiol-ene click chemistry with optimised lewis base properties through molecular imprinting for the rapid and effective capture of Pb（Ⅱ）. Chemical Engineering Journal, 489, 151294(2024).

[6] VALLET REGI M, RÁMILA A, DEL REAL R P et al. A new property of MCM-41：   drug delivery system. Chemistry of Materials, 13, 308-311(2001).

[7] VALLET REGÍ M, SCHÜTH F, LOZANO D et al. Engineering mesoporous silica nanoparticles for drug delivery： where are we after two decades？. Chemical Society Reviews, 51, 5365-5451(2022).

[8] ZONG M, HUANG Y, ZHAO Y. Modification and application of mesoporous molecular sieves SBA-15. Materials Review, 26, 54-59(2012).

[9] ZHAO D Y, HUO Q S, FENG J L et al. Nonionic triblock and star diblock copolymer and oligomeric surfactant syntheses of highly ordered， hydrothermally stable， mesoporous silica structures. Journal of the American Chemical Society, 120, 6024-6036(1998).

[10] ZHAO D, FENG J, HUO Q et al. Triblock copolymer syntheses of mesoporous silica with periodic 50 to 300 angstrom pores. Science, 279, 548-552(1998).

[11] HALAMOVÁ D, BADANIČOVÁ M, ZELEŇÁK V et al. Naproxen drug delivery using periodic mesoporous silica SBA-15. Applied Surface Science, 256, 6489-6494(2010).

[12] MIRZAEI M, EBRAHIMIPOUR S Y, MOHAMADI M et al. Targeted drug delivery of quercetin to breast cancer cells using a modified SBA-15 mesoporous nanostructure. Journal of Cluster Science, 35, 1345-1358(2024).

[13] LIU R, ZHOU J, GUO Z Y et al. Research of factors influencing the release of drugs dispersed in mesopores silicas nanoparticles as controlled release drug delivery. Chinese Journal of Antibiotics, 44, 28-31(2019).

[14] KORZENIOWSKA A, STRZEMPEK W, MAKOWSKI W et al. Incorporation and release of a model drug， ciprofloxacin， from non-modified SBA-15 molecular sieves with different pore sizes. Microporous and Mesoporous Materials, 294, 109903(2020).

[15] GUO Z Y, WU L T, WANG Y et al. Design of dendritic large-pore mesoporous silica nanoparticles with controlled structure and formation mechanism in dual-templating strategy. ACS Applied Materials & Interfaces, 12, 18823-18832(2020).

[16] HAO N J, NIE Y, XU Z et al. Microfluidic continuous flow synthesis of functional hollow spherical silica with hierarchical sponge-like large porous shell. Chemical Engineering Journal, 366, 433-438(2019).

[17] CHOI E, LIM D K, KIM S. Hydrolytic surface erosion of mesoporous silica nanoparticles for efficient intracellular delivery of cytochrome c. Journal of Colloid and Interface Science, 560, 416-425(2020).

[18] FATHI VAVSARI V, MOHAMMADI ZIARANI G, BADIEI A. The role of SBA-15 in drug delivery. RSC Advances, 5, 91686-91707(2015).

[19] WEI Y Q, LYU J W, REN J G et al. Preparation and sustained release properties of Fenofibrate/mesoporous silica. Applied Chemical Industry, 49, 1687-1692(2020).

[21] ZHENG M K. Preparation of fenofibrate solubilization system by mechanical ball milling and the mechanism study(2018).

[22] JADHAV N V, VAVIA P R. Dodecylamine template-based hexagonal mesoporous silica （HMS） as a carrier for improved oral delivery of fenofibrate. AAPS PharmSciTech, 18, 2764-2773(2017).

[23] WEI Y Q. Preparation and drug release mechanism of hollow mesoporous silica carrier(2020).

[24] YIN Y. Synthesis， amorphous preparation and pharmaceutical properties of Cetane-like brain function improving drugs(2014).

[25] SONG J X, CUI J, FAN X Q et al. Preparation of mesoporous silica supported highly dispersed vanadium catalyst and their catalytic performance for selective oxidation of ethane. Chemical Journal of Chinese Universities, 44, 87-94(2023).

[26] KRUK M, JARONIEC M. Gas adsorption characterization of ordered organic-inorganic nanocomposite materials. Chemistry of Materials, 13, 3169-3183(2001).

[27] AHMADI E, DEHGHANNEJAD N, HASHEMIKIA S et al. Synthesis and surface modification of mesoporous silica nanoparticles and its application as carriers for sustained drug delivery. Drug Delivery, 21, 164-172(2014).

[28] ZHANG S Z, SHAN S Y, GUO M S et al. Recent advance on the dissolution and absorption of the cocrystals of poorly soluble drugs. Acta Pharmaceutica Sinica, 59, 2205-2215(2024).