References
- Doadrio AL, Sousa EMB, Doadrio JC, , et al. (2004). Mesoporous SBA-15 HPLC evaluation for controlled gentamicin drug delivery. J Control Release 97:125–32.
- Alardhi SM, Albayati TM, Alrubaye JM. (2020). Adsorption of the methyl green dye pollutant from aqueous solution using mesoporous materials MCM-41 in a fixed-bed column. Heliyon 6:e03253.
- Albayati TM, and, Doyle AM. (2015). Encapsulated heterogeneous base catalysts onto SBA-15 nanoporous material as highly active catalysts in the transesterification of sunflower oil to biodiesel. J Nanopart Res 17:109.
- Albayati TM, Doyle AM. (2014). Purification of aniline and nitrossubistituted aniline contaminants from aqueous solution using beta zeolite. Chemistry 23:105–14.
- Albayati TM, Doyle AM. (2014). SBA 15 supported bimetallic catalysts for enhancement isomers production during n-heptane decomposition. Int J Chem React Eng 12:345–54.
- Albayati TM, Jassam AA. (2019). Synthesis and characterization of mesoporous materials as a carrier and release of prednisolone in drug delivery system. J Drug Delivery Sci Technol 53:101176.
- Albayati TM, Sabri AA, Abed DB. (2019). Adsorption of binary and multi heavy metals ions from aqueous solution by amine functionalized SBA-15 mesoporous adsorbent in a batch system. DWT 151:315–21.
- Albayati TM, Sabri AA, Alazawi RA. (2016). Separation of methylene blue as pollutant of water by SBA-15 in a fixed-bed column. Arab J Sci Eng 41:2409–15.
- Albayati TM, Salih IK, Alazzawi HF. (2019). Synthesis and characterization of a modified surface of SBA-15 mesoporous silica for a chloramphenicol drug delivery system. Heliyon 5:e02539.
- Albayati TM, Wilkinson SE, Garforth AA, Doyle AM. (2014). Heterogeneous alkane reactions over nanoporous catalysts. Transp Porous Med 104:315–33.
- Albayati TM. (2019). Application of nanoporous material MCM-41 in a membrane adsorption reactor (MAR) as a hybrid process for removal of methyl orange. DWT 151:138–44.
- Alkafajy AM, Albayati TM. (2020). High performance of magnetic mesoporous modification for loading and release of meloxicam in drug delivery implementation. Mater Today Commun 23:100890.
- Ayad MM, Salah Uddin NA, Abu El-Nasr A, Torad NL. (2016). Amine-functionalized mesoporous silica KIT-6 as a controlled release drug delivery carrier. Microporous Mesoporous Mater 229:166–77.
- Bahrami Z, Badiei A, Atyabi F. (2014). Surface functionalization of SBA-15 nanorods for anticancer drug delivery. Chem Eng Res Des 92:1296–303.
- Benarousi K, Serseg T, Yousfi M. (2020). Amoxicillin trihydrate-clavulanate potassium as Potential Inhibitor of 2019 novel coronavirus main protease with strong receptor-binding domain (RBD), molecular docking and SAR study. doi:10.13140/RG.2.2.35347.63528.
- Das SK, Bhunia MK, Chakraborty D, et al. (2012). Hollow spherical mesoporous phosphosilicate nanoparticles as a delivery vehicle for an antibiotic drug. Chem Commun 48:2891–3.
- Hosseini-Ashtiani N, Tadjarodi A, Zare-Dorabei R. (2021). Low molecular weight chitosan-cyanocobalamin nanoparticles for controlled delivery of ciprofloxacin: Preparation and evaluation. Int J Biol Macromol 176:459–67.
- Hwang DH, Lee D, Lee H, et al. (2010). Surface functionalization of SBA-15 particles for ibuprofen delivery. Korean J Chem Eng 27:1087–92.
- Lang Y, Finn DP, Pandit A, Walsh PJ. (2012). Pharmacological activity of ibuprofen released from mesoporous silica. J Mater Sci Mater Med 23:73–80.
- Liu J, Jiang X, Ashley C, Brinker CJ. (2009). Electrostatically mediated liposome fusion and lipid exchange with a nanoparticle-supported bilayer for control of surface charge, drug containment, and delivery. J Am Chem Soc 131:7567–9.
- Manzano M, Aina V, Arean CO, et al. (2008). Studies on MCM-41 mesoporous silica for drug delivery: effect of particle morphology and amine functionalization. Chem Eng J 137:30–7.
- Nosrati H, Adibtabar M, Sharafi A, et al. (2018). PAMAM-modified citric acid-coated magnetic nanoparticles as pH sensitive biocompatible carrier against human breast cancer cells. Drug Dev Ind Pharm 44:1377–84.
- Ramezani F, Zare-Dorabei R. (2019). Simultaneous ultrasonic-assisted removal of malachite green and methylene blue from aqueous solution by Zr-SBA-15. Polyhedron 166:153–61.
- Sabri AA, Albayati TM, Alazawi RA. (2015). Synthesis of ordered mesoporous SBA-15 and its adsorption of methylene blue. Korean J Chem Eng 32:1835–41.
- Salehiabar M, Nosrati H, Davaran S, et al. (2018). Facile synthesis and characterization of L-aspartic acid coated iron oxide magnetic nanoparticles (IONPs) for biomedical applications. Drug Res 68:280–5.
- Sasidharan M, Zenibana H, Nandi M, et al. (2013). Synthesis of mesoporous hollow silica nanospheres using polymeric micelles as template and their application as a drug-delivery carrier. Dalton Trans 42:13381–9.
- Sevimli F, Yılmaz A. (2012). Surface functionalization of SBA-15 particles for amoxicillin delivery. Microporous Mesoporous Mater 158:281–91.
- Song SW, Hidajat K, Kawi S. (2005). Functionalized SBA-15 materials as carriers for controlled drug delivery: influence of surface properties on matrix-drug interactions. Langmuir 21:9568–75.
- Szewczyk A, Prokopowicz M, Sawicki W, et al. (2019). Aminopropyl-functionalized mesoporous silica SBA-15 as drug carrier for cefazolin: adsorption profiles, release studies, and mineralization potential. Microporous Mesoporous Mater 274:113–26.
- Teodora Tihan G, Ungureanu C, Constantin Barbaresso R, et al. (2015). Chloramphenicol collagen sponges for local drug delivery in dentistry. CR Chim 18:986–92.
- Vallet-Regı M, Doadrio JC, Doadrio AL, et al. (2004). Hexagonal ordered mesoporous material as a matrix for the controlled release of amoxicillin. J. Solid State Ionics 172:435–9.
- Vathyam R, Wondimu E, Das S, et al. (2011). Improving the adsorption and release capacity of organic-functionalized mesoporous materials to drug molecules with temperature and synthetic methods. J Phys Chem C 115:13135–50.
- Vora C, Patadia R, Mittal K, Mashru R. (2013). Risk based approach for design and optimization of stomach specific delivery of rifampicin. Int J Pharm 455:169–81.
- Zhao D, Huo Q, Feng J, et al. (1998). Nonionic triblock and star diblock copolymer and oligomeric sufactant syntheses of highly ordered, hydrothermally stable, mesoporous silica structures. J Am Chem Soc 120:6024–36.
- Zhu S, Zhou Z, Zhang D, et al. (2007). Design and synthesis of delivery system based on SBA-15 with magnetic particles formed in situ and thermo-sensitive PNIPA as controlled switch. Microporous Mesoporous Mater 106:56–61.