Synthesis Mechanism of Cationic Surfactant Templating Mesoporous Silica under an Acidic Synthesis Process

Che, Shunai; Li, Huachun; Lim, Seung-Gag; Sakamoto, Yasuhiro; Terasaki, Osamu; Tatsumi, Takashi

doi:10.1021/cm050359s

Cited by 57 publications

(53 citation statements)

References 50 publications

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“…Baute and Goldfarb [38] investigated the interaction of NaNO 3 with P123 micelles and their role in the phase formation of the mesoporous SBA-15 through electron-spin echo envelope modulation (ESEEM). The impact of the salts on the mesostructure has been explained through the influence of the anions on the surfactant-packing parameter, which, in turn, changes the micellar curvature and packing [39,40]. In our case, the hydrolysis products of thiourea in the acidic solution decreased the micellar curvature, thus, a larger pore size can be obtained in the codoped mesoporous TiO 2 samples.…”

Section: Resultsmentioning

confidence: 66%

Photocatalytic activity of (sulfur, nitrogen)-codoped mesoporous TiO2 thin films

Wang

et al. 2010

Res Chem Intermed

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Nitrogen and sulfur co-doped mesoporous TiO 2 thin films were fabricated using thiourea as a doping resource by the combination of the sol-gel and evaporation-induced self-assembly (EISA) processes. Scanning electron microscopy (SEM), X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), N 2 adsorption-desorption, and UV-vis spectra were performed to characterize the assynthesized mesoporous TiO 2 materials. The XPS result shows that O-Ti-N and O-Ti-S bonds in the (S, N)-codoped mesoporous TiO 2 were formed. The resultant mesoporous (S, N)-codoped TiO 2 exhibited anatase framework with a high porosity and a narrow pore distribution. After being illuminated for 3 h, methyl orange (MO) could be degraded completely by the co-doped sample under the ultraviolet irradiation, whereas mesoporous TiO 2 film without doping could only degrade 60% MO. After being illuminated by visible light, the water contact angles of the mesoporous co-doped TiO 2 samples decreased slightly, but the pure TiO 2 mesoporous film exhibited no change in the hydrophilicity.

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Section: Resultsmentioning

confidence: 66%

Photocatalytic activity of (sulfur, nitrogen)-codoped mesoporous TiO2 thin films

Wang

et al. 2010

Res Chem Intermed

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“…As is widely recognized, the salting-in and saltingout properties of a counterion following the Hofmeister series play an important role in this process. [67][68][69][70][71] Carboxylate is a salting-out anion (relative to Cl − ) and is well hydrated. Counterions that have an intense electrostatic fi eld interact strongly with the carboxylate surfactant, thereby weakening the repulsions between the headgroups of the surfactant and inducing a decrease in the organic/inorganic interface curvature.…”

Section: Effect Of Kinetics On the Formation Of Ams Structuresmentioning

confidence: 99%

Organically Functionalized Mesoporous Silica by Co‐structure‐Directing Route

Gao

Che

2010

Adv Funct Materials

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This article provides a brief overview of functional mesoporous silica materials synthesized by the co‐structure‐directing route, which is distinct from conventional synthesis strategies. In these systems, organosilane serves as the co‐structure‐directing agent (CSDA), which provides critical interactions between the template and organic part of the organosilane to form mesostructures, thus retaining the organic groups on the pore surface after removal of the template by extraction. i) The formation of anionic‐surfactant‐templated mesoporous silicas (AMSs) has been achieved by the co‐structure‐directing route, which leads to a variety of mesostructures, porous properties and morphologies. ii) Other co‐structure‐directing systems for synthesizing mesoporous silicas have also been achieved, including systems using cationic surfactants and non‐surfactants, and systems using DNA for constructing nanofibers and DNA–silica liquid crystalline complexes. iii) Evidence for the regular arrangement of functional groups on the pore surface resulted from the co‐structure‐directing effect has been discussed. Also included is a brief description of the application, future requirements, and trends in the development of mesoporous materials by the co‐structure‐directing route.

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“…[24,25] Secondly, silica species are less-condensed, linear oligomers in acidic conditions (M1 synthesis), while in alkaline solution (M2 synthesis), they contain more crosslinked clusters. [26] The 29 Si MAS-NMR (MAS: magic-angle-spinning) spectra of the samples synthesized in acidic conditions have a Q 3 /Q 4 ratio above unity accompanied with clear Q 2 peaks, [27] implying incomplete polymerization and condensation of the silanol groups. However, the Q 2 peaks disappeared in the spectra of the analogue sample synthesized under basic conditions and the Q 3 and Q 4 peak areas seemed very similar, which indicates the relative complete condensation between the silanol groups.…”

Section: Full Papermentioning

confidence: 99%

Fabrication of Metal Oxides Occluded in Ordered Mesoporous Hosts via a Solid‐State Grinding Route: The Influence of Host–Guest Interactions

Wang

et al. 2006

Adv Funct Materials

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Solid‐state grinding is a simple and effective method to include guest species into the channels of ordered mesoporous materials with a different degree of filling. After calcination, a monolayer or several monolayers of guest species can not only form highly dispersed oxide species and other surface species on the hosts whether the template is occluded in the channels or not, but the guest species can also fill the mesoporous channels in the host and thus lead to nanowires or nanoarrays. Solid‐state salt inclusion is faster and more convenient than other inclusion routes. The absence of a solvent not only saves the time otherwise needed for evaporation but also leads to a higher degree of filling through a simple inclusion step as the void space in the pores is not occupied by the solvent. Also, the lack of competitive adsorption of solvent molecules enhances the interaction between the guest species included and the silica wall, which facilitates the high dispersion of oxide species. However, host–guest interactions that are too strong may disturb the self‐crystallization of guest species in the mesopores leading to imperfect nanocasting of the mesostructure.

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Synthesis Mechanism of Cationic Surfactant Templating Mesoporous Silica under an Acidic Synthesis Process

Cited by 57 publications

References 50 publications

Photocatalytic activity of (sulfur, nitrogen)-codoped mesoporous TiO2 thin films

Photocatalytic activity of (sulfur, nitrogen)-codoped mesoporous TiO2 thin films

Organically Functionalized Mesoporous Silica by Co‐structure‐Directing Route

Fabrication of Metal Oxides Occluded in Ordered Mesoporous Hosts via a Solid‐State Grinding Route: The Influence of Host–Guest Interactions

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