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Artículos de revistas sobre el tema "Porous silicas"

Autor: Grafiati
Publicado: 25 de mayo de 2024
Última modificación: 31 de julio de 2025

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1

Tortajada, Marta. "Hierarchical bimodal porous silicas and organosilicas for enzyme immobilization." Journal of Materials Chemistry 15, no. 35-36 (2005): 3859–68. https://doi.org/10.5281/zenodo.14773879.

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Abstract This work shows the ability of a hierarchical porous silica-based network with pore systems at two different length scales for enzyme immobilization. Two different enzymes have been selected, lysozyme, a relatively small globular enzyme, and α-L-arabinofuranosidase, a large enzyme of interest in the winemaking industry. The lysozyme immobilization on several silica supports (bimodal porous silicas denoted UVM-7 materials and conventional silica xerogels) has been studied and the loading amounts can be correlated to the open nature and accessibility of the int
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2

Yan, Xiang, Aurélie Cayla, Eric Devaux, and Fabien Salaün. "Microstructure Evolution of Immiscible PP-PVA Blends Tuned by Polymer Ratio and Silica Nanoparticles." Polymers 10, no. 9 (2018): 1031. http://dx.doi.org/10.3390/polym10091031.

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Composites of polypropylene (PP) and water soluble poly(vinyl alcohol) (PVA) can become an environmentally friendly precursor in preparing porous material, and their biphasic morphology needs to be manipulated. In this work, PP-PVA extrudates were prepared with a twin-screw extruder, and different PP/PVA ratios were employed to manipulate the morphology of the blends. Afterwards, different silicas were imbedded within the blends to further regulate the biphasic microstructure. PVA continuity, as a vital parameter in obtaining porous material, was determined by selective extraction measurement,
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3

Choma, Jerzy, and Mietek Jaroniec. "Adsorption Potential Distributions for Silicas and Organosilicas." Adsorption Science & Technology 25, no. 8 (2007): 573–81. http://dx.doi.org/10.1260/0263-6174.25.8.573.

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Adsorption potential distributions (APDs) were calculated from nitrogen adsorption isotherms for macroporous silicas, and for disordered and ordered mesoporous silicas without and with organic groups attached to the surface. It was shown that the APDs for porous silicas and organosilicas differ significantly from those obtained for carbonaceous materials, especially in the range of high adsorption potentials which correspond to low relative pressures. Although the high adsorption potential portions of APDs for porous siliceous materials are less informative than those for carbons, they are sti
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4

Weinberger, Christian, Tatjana Heckel, Patrick Schnippering, et al. "Straightforward Immobilization of Phosphonic Acids and Phosphoric Acid Esters on Mesoporous Silica and Their Application in an Asymmetric Aldol Reaction." Nanomaterials 9, no. 2 (2019): 249. http://dx.doi.org/10.3390/nano9020249.

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The combined benefits of moisture-stable phosphonic acids and mesoporous silica materials (SBA-15 and MCM-41) as large-surface-area solid supports offer new opportunities for several applications, such as catalysis or drug delivery. We present a comprehensive study of a straightforward synthesis method via direct immobilization of several phosphonic acids and phosphoric acid esters on various mesoporous silicas in a Dean–Stark apparatus with toluene as the solvent. Due to the utilization of azeotropic distillation, there was no need to dry phosphonic acids, phosphoric acid esters, solvents, or
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5

Charmas, Barbara, Karolina Kucio, Volodymyr Sydorchuk, Svitlana Khalameida, Magdalena Zięzio, and Aldona Nowicka. "Characterization of Multimodal Silicas Using TG/DTG/DTA, Q-TG, and DSC Methods." Colloids and Interfaces 3, no. 1 (2018): 6. http://dx.doi.org/10.3390/colloids3010006.

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The formation of hierarchical, multimodal porosity materials with controlled shape and size of pores is the essential challenge in materials science. Properties of silica materials depend largely on different features: crystal structure, dispersity, surface composition, and porosity as well as the method of preparation and possible modification. In this paper, multimodal silicas obtained using different additives are presented. A-50 and A-380 aerosils and wide-porous SiO2 milled at 300 rpm were used as the additives in the sol stage at 20 °C, the sol–gel stage followed by hydrothermal modifica
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6

Hustings, A. M. L., and J. J. F. Scholten. "The Effect of Pressure on Pore Structure in Mercury Porosimetry." Adsorption Science & Technology 4, no. 4 (1987): 241–50. http://dx.doi.org/10.1177/026361748700400404.

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The pore volume distributions of chrysotile, Mg3(OH)4. Si2O5, ZrO2 and of four samples of silica with pore volumes from 1.45 to 2.70 cm3/g have been measured by means of nitrogen capillary condensation and mercury penetration. It is shown that compaction of the porous structures can occur under the influence of the high mercury pressures applied. The degree of compaction depends on the mechanical strength of the sample, its initial porosity and the magnitude of the mercury pressure. The extremely strong ZrO2 sample, with its low pore volume of 0.18 cm3/g does not show any sign of cracking up t
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7

Gorgol, Marek, Agnieszka Kierys, and Radosław Zaleski. "Positron Lifetime Annihilation Study of Porous Composites and Silicas Synthesized Using Polymer Templates." Defect and Diffusion Forum 373 (March 2017): 280–83. http://dx.doi.org/10.4028/www.scientific.net/ddf.373.280.

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The porous structure of polymer-silica composites, based on three polymer templates, which differ in a porosity and hydrophobicity, was examined using positron annihilation lifetime spectroscopy. Additionally, the investigation of silicas obtained after removal of polymers during calcination of composite materials, was performed. In composites based on hydrophobic polymers, silica condensates only in larger free volumes, while SiO2 deeply penetrates spaces between polymer chains, when the template is polar. Moreover, the structure of the silica gel, obtained after polymer removal, depends on c
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8

Ramsay, John D. F., and Christiane Poinsignon. "Neutron scattering investigations of porous silicas and water silica interfaces." Langmuir 3, no. 3 (1987): 320–26. http://dx.doi.org/10.1021/la00075a006.

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9

Kooyman, Patricia J., Markéta Slabová, Vladimír Bosáček, Jiří Čejka, Jiří Rathouský, and Arnošt Zukal. "The Influence of pH on the Structure of Templated Mesoporous Silicas Prepared from Sodium Metasilicate." Collection of Czechoslovak Chemical Communications 66, no. 4 (2001): 555–66. http://dx.doi.org/10.1135/cccc20010555.

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A recently developed homogeneous precipitation method was used for the investigation of the influence of pH on the structure of mesoporous silicas prepared from sodium metasilicate in the presence of a quaternary alkyl ammonium surfactant as a structure directing agent. The rate of pH decrease affects the assembly of mesoscopically ordered composites and, consequently, the porous structure of mesoporous silicas prepared from them by calcination. Pure MCM-41 molecular sieve was prepared by controlling the pH decrease of the reaction mixture so as to achieve the final pH 7.8. The as-made materia
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10

Crean, Abina M., Robert J. Ahern, Rakesh Dontireddy, et al. "Porous Silicas for Enhanced Drug Release." Advances in Science and Technology 91 (October 2014): 79–81. http://dx.doi.org/10.4028/www.scientific.net/ast.91.79.

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Low drug water-solubility is a major challenge to overcome in the development of tablet or capsule dosage forms for a large number of promising drug candidates. Strategies to improve drug solubility and dissolution involve chemical, physical and formulation approaches. An emerging formulation approach to increase drug dissolution and solubility involves the creation of solid dispersions of drug molecules on to a high surface area inorganic carrier, such as porous silica. The combined benefits of a hydrophilic inorganic substrate, increased drug surface area and a high-energy drug form facilita
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11

BENEDETTI, A., S. CICCARIELLO, F. PINNA, and G. STRUKUL. "SAXS study of coated porous silicas." Le Journal de Physique IV 03, no. C8 (1993): C8–463—C8–466. http://dx.doi.org/10.1051/jp4:1993896.

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12

Guiton, T. A., and C. G. Pantano. "Infrared reflectance spectroscopy of porous silicas." Colloids and Surfaces A: Physicochemical and Engineering Aspects 74, no. 1 (1993): 33–46. http://dx.doi.org/10.1016/0927-7757(93)80396-v.

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13

Gomułka, Aleksandra, Andrzej Kowalczyk, Izabela Majewska, Pegie Cool, and Lucjan Chmielarz. "Mesoporous MCM-48 and MCM-41 Silicas Modified with Copper by ADP Method as Effective Catalysts for Low-Temperature NH3-SCR—The Role of Synthesis Conditions and Associated Reactions." Catalysts 15, no. 6 (2025): 578. https://doi.org/10.3390/catal15060578.

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Mesoporous silicas of MCM-41 and MCM-48 types were synthesized and modified with copper using the ammonia-driven deposition precipitation (ADP) method, resulting in highly dispersed copper species. Samples with varying copper loadings were thoroughly characterized in terms of their porous structure, metal content, copper species’ aggregation, and the stability of deposited forms under reaction conditions. Copper-modified mesoporous silicas exhibited excellent catalytic performance in the low-temperature NH3-SCR process. Their activity in NO to NO2 oxidation suggests that the fast-SCR pathway p
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14

Jadhav, Sushilkumar A., and Dominique Scalarone. "Thermoresponsive Polymer Grafted Porous Silicas as Smart Nanocarriers." Australian Journal of Chemistry 71, no. 7 (2018): 477. http://dx.doi.org/10.1071/ch18229.

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Porous silica particles grafted with various stimuli-responsive polymers are investigated with great interest for their use as smart pharmaceutical nanocarriers in advanced drug delivery systems (DDS). In particular, porous silica particles grafted with thermoresponsive polymers that exhibit thermally triggered on/off gating mechanisms have shown improved performance as hybrid DDS capable of controlling the release of different drugs in various mediums which resemble complex biological environments. In addition, the tuning of the drug release profiles as per requirements has proved possible wi
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15

Navrotsky, Alexandra, Richard Hervig, James Lyons, Dong-Kyun Seo, Everett Shock, and Albert Voskanyan. "Cooperative formation of porous silica and peptides on the prebiotic Earth." Proceedings of the National Academy of Sciences 118, no. 2 (2020): e2021117118. http://dx.doi.org/10.1073/pnas.2021117118.

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Modern technology has perfected the synthesis of catalysts such as zeolites and mesoporous silicas using organic structure directing agents (SDA) and their industrial use to catalyze a large variety of organic reactions within their pores. We suggest that early in prebiotic evolution, synergistic interplay arose between organic species in aqueous solution and silica formed from rocks by dynamic dissolution–recrystallization. The natural organics, for example, amino acids, small peptides, and fatty acids, acted as SDA for assembly of functional porous silica structures that induced further poly
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16

Baudouin, D., H. A. van Kalkeren, A. Bornet, et al. "Cubic three-dimensional hybrid silica solids for nuclear hyperpolarization." Chemical Science 7, no. 11 (2016): 6846–50. http://dx.doi.org/10.1039/c6sc02055k.

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17

Gun'ko, V. M. "Features of the morphology and texture of silica and carbon adsorbents." Surface 13(28) (December 30, 2021): 127–65. http://dx.doi.org/10.15407/surface.2021.13.127.

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The morphological and textural characteristics of various silicas (93 fumed silicas and 56 porous silicas), different carbons (230), and porous polymers (53) are analyzed using probe (nitrogen, argon, benzene, n-decane, water) adsorption, small angle X-ray scattering (SAXS), and transition (TEM), scanning (SEM) electron and atom force (AFM) microscopies. There are certain correlations between pore volume (Vp) and specific surface area (SSA, SBET) for these materials. Synthesis and treatment temperatures affect this relationship since a linear Vp - SBET approximation scatter decreases with decr
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18

Manning, Joseph R. H., Carlos Brambila, and Siddharth V. Patwardhan. "Unified mechanistic interpretation of amine-assisted silica synthesis methods to enable design of more complex materials." Molecular Systems Design & Engineering 6, no. 3 (2021): 170–96. http://dx.doi.org/10.1039/d0me00131g.

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19

Gun'ko, V. M. "Confined space effects on various liquids interacting with fumed nanooxides and porous silicas." Himia, Fizika ta Tehnologia Poverhni 13, no. 1 (2022): 47–59. http://dx.doi.org/10.15407/hftp13.01.047.

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Interfacial phenomena at a surface of porous and highly disperse adsorbents in the systems containing strongly and weakly bound and unbound liquids depend strongly on the confined space effects. These effects as well as the temperature behavior of liquids located in pores or voids between nanoparticles depend on many factors. They are the pore size distributions, pore volume, specific surface area, surface chemistry of adsorbents, chemical structure and molecular sizes of adsorbates, accessibility of pores vs. probe molecule sizes, as well as textural instability of adsorbents. This instabilit
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20

Coasne, Benoit, Aude Mezy, R. J. M. Pellenq, D. Ravot, and J. C. Tedenac. "Zinc Oxide Nanostructures Confined in Porous Silicas." Journal of the American Chemical Society 131, no. 6 (2009): 2185–98. http://dx.doi.org/10.1021/ja806666n.

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21

Rochester, Colin H., and Alistair Strachan. "The Adsorption of Dioxan by Porous Silicas." Journal of Colloid and Interface Science 177, no. 2 (1996): 456–62. http://dx.doi.org/10.1006/jcis.1996.0058.

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22

Lee, Sang Gil, Young Ho Kim, Jun Tae Bae, et al. "Fabrication of Hollow Porous Silica Using a Combined Emulsion Sol–Gel Process and Amphiphilic Triblock Copolymer for Loading of Quercetin." Journal of Nanoscience and Nanotechnology 15, no. 10 (2015): 7935–41. http://dx.doi.org/10.1166/jnn.2015.11226.

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Flavonoids have recently attracted significant interest as potential reducing agents, hydrogendonating antioxidants, and singlet oxygen-quenchers. Quercetin, in particular, induces the expression of a gene, known to be associated with cell protection, in dose- and time-dependent manners. Therefore, quercetin may be used as an effective cosmeceutical material useful in the protection of dermal skin. In this study, hollow porous silica spheres used to load quercetin were prepared by using a combined emulsion sol–gel process and triblock copolymer as a template. Fabrication of hollow porous silic
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23

Fukuda, Miki, Nao Tsunoji, Yuya Yagenji, et al. "Highly active and selective Ti-incorporated porous silica catalysts derived from grafting of titanium(iv)acetylacetonate." Journal of Materials Chemistry A 3, no. 29 (2015): 15280–91. http://dx.doi.org/10.1039/c5ta02975a.

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24

Kryszak, D., K. Stawicka, M. Trejda, V. Calvino-Casilda, R. Martin-Aranda, and M. Ziolek. "Development of basicity in mesoporous silicas and metallosilicates." Catalysis Science & Technology 7, no. 22 (2017): 5236–48. http://dx.doi.org/10.1039/c7cy00927e.

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25

Doghri, Hanène, Elena A. Baranova, Belén Albela, Mongia Saïd-Zina, and Laurent Bonneviot. "A bio-inspired zinc finger analogue anchored in 2D hexagonal mesoporous silica for room temperature CO2activation via a hydrogenocarbonate route." New Journal of Chemistry 41, no. 14 (2017): 6795–809. http://dx.doi.org/10.1039/c6nj03329f.

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26

Moritz, Michał, та Małgorzata Geszke-Moritz. "The Effect of SBA-15 Surface Modification on the Process of 18β-Glycyrrhetinic Acid Adsorption: Modeling of Experimental Adsorption Isotherm Data". Materials 12, № 22 (2019): 3671. http://dx.doi.org/10.3390/ma12223671.

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This study aimed at the adsorption of 18β-glycyrrhetinic acid (18β-GA), a pentacyclic triterpenoid derivative of oleanane type, onto functionalized mesoporous SBA-15 silica and non-porous silica (Aerosil®) as the reference adsorbent. Although 18β-GA possesses various beneficial pharmacological properties including antitumor, anti-inflammatory, and antioxidant activity, it occurs is small amounts in plant materials. Thus, the efficient methods of this bioactive compound enrichment from vegetable raw materials are currently studied. Siliceous adsorbents were functionalized while using various al
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27

Bebris, N. K., Yu S. Nikitin, A. A. Pyatygin, and N. K. Shoniya. "Synthesis and investigation of porous pyrocarbon-modified silicas." Journal of Chromatography A 364 (September 1986): 409–24. http://dx.doi.org/10.1016/s0021-9673(00)96231-9.

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28

Pines, Dina, and Dan Huppert. "Excitation Transfer in Porous Silicas - A Fractal Approach." Israel Journal of Chemistry 29, no. 4 (1989): 473–85. http://dx.doi.org/10.1002/ijch.198900058.

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29

López-Asensio, Raquel, Carmen Jiménez Gómez, Cristina García Sancho, Ramón Moreno-Tost, Juan Cecilia, and Pedro Maireles-Torres. "Influence of Structure-modifying Agents in the Synthesis of Zr-doped SBA-15 Silica and Their Use as Catalysts in the Furfural Hydrogenation to Obtain High Value-added Products through the Meerwein-Ponndorf-Verley Reduction." International Journal of Molecular Sciences 20, no. 4 (2019): 828. http://dx.doi.org/10.3390/ijms20040828.

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Zr-doped mesoporous silicas with different textural parameters have been synthesized in the presence of structure-modifying agents, and then characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM), N2 adsorption-desorption at −196 °C, NH3 thermoprogrammed desorption (NH3–TPD), CO2 thermoprogrammed desorption (CO2–TPD), and X-ray photoelectron spectroscopy (XPS). These porous materials were evaluated in the furfural hydrogenation through the Meerwein-Ponndorf-Verley (MPV) reaction. The catalytic results indicate that the catalyst synthesized under hydrothermal condition
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30

Wang, Junyi, and Yousheng Tao. "Removal of Formaldehyde from the Indoor Environment Using Porous Carbons and Silicas." Recent Innovations in Chemical Engineering (Formerly Recent Patents on Chemical Engineering) 13, no. 3 (2020): 194–202. http://dx.doi.org/10.2174/2405520413666200124110348.

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Formaldehyde, carcinogenic for humans, is a common indoor air pollutant emitting from furniture coatings and flooring materials. Porous carbon and silica materials have applications in the removal of formaldehyde because of their large specific surface areas, obedience to surface modification for enhanced adsorption of pollutants, high chemical and mechanical stabilities, and reusability. This work briefly summarized available porous carbon and silica materials for the removal of formaldehyde from the indoor environment.
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31

Mesa, Monica, and Natalia Y. Becerra. "Silica/Protein and Silica/Polysaccharide Interactions and Their Contributions to the Functional Properties of Derived Hybrid Wound Dressing Hydrogels." International Journal of Biomaterials 2021 (November 3, 2021): 1–13. http://dx.doi.org/10.1155/2021/6857204.

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Multifunctional and biocompatible hydrogels are on the focus of wound healing treatments. Protein and polysaccharides silica hybrids are interesting wound dressing alternatives. The objective of this review is to answer questions such as why silica for wound dressings reinforcement? What are the roles and contributions of silane precursors and silica on the functional properties of hydrogel wound dressings? The effects of tailoring the porous, morphological, and chemical characteristics of synthetic silicas on the bioactivity of hybrid wound dressings hydrogels are explored in the first part o
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32

Roik, N. V., I. M. Trofymchuk, L. O. Belyakova, and O. I. Oranska. "Hybrid template directed hydrothermal synthesis of MCM-41 silicas with surface silanol and 3-chloropropyl groups." Himia, Fizika ta Tehnologia Poverhni 14, no. 4 (2023): 464–73. http://dx.doi.org/10.15407/hftp14.04.464.

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Silicas of MCM-41‑type with reactive functional groups are widely used as starting substrates in large variety of post‑synthetic chemical modification pathways. Therefore, variation of their structural characteristics in the process of templated sol‑gel synthesis or post-synthetic treatment is of great importance. The aim of this work was to elucidate the influence of template agent selection on structural features of MCM-41‑type materials with surface silanol and 3‑chloropropyl groups. For this purpose, template-assisted sol-gel condensation of structure forming silanes (tetraethyl orthosilic
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33

Hongsawat, Parnuch, Panida Prarat, Chawalit Ngamcharussrivichai, and Patiparn Punyapalakul. "Adsorption of ciprofloxacin on surface functionalized superparamagnetic porous silicas." Desalination and Water Treatment 52, no. 22-24 (2013): 4430–43. http://dx.doi.org/10.1080/19443994.2013.803795.

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34

Hartmann, Martin, and Xenia Kostrov. "Immobilization of enzymes on porous silicas – benefits and challenges." Chemical Society Reviews 42, no. 15 (2013): 6277. http://dx.doi.org/10.1039/c3cs60021a.

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35

Nomura, Akihiro, and Christopher W. Jones. "Amine-Functionalized Porous Silicas as Adsorbents for Aldehyde Abatement." ACS Applied Materials & Interfaces 5, no. 12 (2013): 5569–77. http://dx.doi.org/10.1021/am400810s.

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36

de Keizer, A., E. M. van der Ent, and L. K. Koopal. "Surface and volume charge densities of monodisperse porous silicas." Colloids and Surfaces A: Physicochemical and Engineering Aspects 142, no. 2-3 (1998): 303–13. http://dx.doi.org/10.1016/s0927-7757(98)00268-4.

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37

Tortajada, Marta, Daniel Ramón, Daniel Beltrán, and Pedro Amorós. "Hierarchical bimodal porous silicas and organosilicas for enzyme immobilization." Journal of Materials Chemistry 15, no. 35-36 (2005): 3859. http://dx.doi.org/10.1039/b504605j.

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38

Shcherban, Nataliya D., Svitlana M. Filonenko, Pavel S. Yaremov, Sergii A. Sergiienko, Volodymir G. Ilyin, and Dmitry Yu Murzin. "Carbothermal synthesis of porous silicon carbide using mesoporous silicas." Journal of Materials Science 52, no. 7 (2016): 3917–26. http://dx.doi.org/10.1007/s10853-016-0652-7.

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39

Fadeev, Alexander Y., and Valentine A. Eroshenko. "Study of Penetration of Water into Hydrophobized Porous Silicas." Journal of Colloid and Interface Science 187, no. 2 (1997): 275–82. http://dx.doi.org/10.1006/jcis.1996.4495.

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40

Mendes, Thiago Melanda, and Wellington Longuini Repette. "Nano-silica added to Portland cement." Acta Scientiarum. Technology 43 (June 14, 2021): e51699. http://dx.doi.org/10.4025/actascitechnol.v43i1.51699.

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For a controlled particle size distribution, nano-silica was added to three different cements. The chemical and mineralogical compositions of the cements were characterized by fluorescence and X-ray diffraction. The granulometric distributions of cements and nano-silicas were obtained by laser granulometry and dynamic lightning scattering. The specific surface area of the raw materials was determined by gas adsorption. The effect of nano-silica and type of cement on rheological behavior was evaluated by rotational rheometry. The mechanical performance was investigated through the compression s
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41

Asefa, Tewodros, and Zhimin Tao. "Mesoporous silica and organosilica materials — Review of their synthesis and organic functionalization." Canadian Journal of Chemistry 90, no. 12 (2012): 1015–31. http://dx.doi.org/10.1139/v2012-094.

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Mesoporous silica and organosilica materials are a class of nanostructured materials that have porous structures with tunable nanometer pores, large surface areas, high pore volumes, and, in some cases, well-ordered mesostructures. Furthermore, in the case of mesoporous organosilicas, the materials possess various types of organic functional groups. This review highlights the different synthetic methods developed for mesoporous silica and organosilica nanomaterials. The review also discusses the various synthetic strategies used to functionalize the surfaces of mesoporous silica materials and
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42

Peng, Lu, Antonio Doménech-Carbó, Ana Primo, and Hermenegildo García. "3D defective graphenes with subnanometric porosity obtained by soft-templating following zeolite procedures." Nanoscale Advances 1, no. 12 (2019): 4827–33. http://dx.doi.org/10.1039/c9na00554d.

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By applying the templating mechanism employed for the synthesis of mesoporous silicas to the structuration of sodium alginate, a novel defective 3D tubular graphene material (graphenolite) with hierarchical porous structure, very high powder specific surface area (1820 m<sup>2</sup> g<sup>−1</sup>) has been obtained.
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43

Ivashchenko, N., V. Tertykh, J. Skubiszewska-Zięba, R. Leboda, S. Khainakov, and O. Oranska. "Novel Route for Incorporation of Palladium Nanoparticles into Mesostructured Silicas Sba 15 and Sba-16." Advanced Composites Letters 22, no. 3 (2013): 096369351302200. http://dx.doi.org/10.1177/096369351302200301.

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Palladium nanoparticles with controlled size were synthesized within the pores of the mesoporous SBA-15 and SBA-16 silicas with grafted silicon hydride groups. Nitrogen adsorption-desorption method, X-ray diffraction and transmission electron microscopy (TEM) were used for characterization of palladium-containing composites. Results of material study clearly revealed that Pd nanoparticles prepared by this method were located inside the porous channels and were quite uniform in size (mostly 5–6 nm). The influence of metal content on the particles size and porous structure of supports was invest
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Okada, K., H. Yoshizaki, Y. Kameshima, A. Nakajima, and K. J. D. Mackenzie. "Porous properties of mesoporous silicas from two silica sources (acid-leached kaolinite and Si-alkoxide)." Journal of Porous Materials 17, no. 1 (2009): 19–25. http://dx.doi.org/10.1007/s10934-008-9260-5.

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Tanev, P. T., and T. J. Pinnavaia. "Biomimetic Templating of Porous Lamellar Silicas by Vesicular Surfactant Assemblies." Science 271, no. 5253 (1996): 1267–69. http://dx.doi.org/10.1126/science.271.5253.1267.

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Pires, João, Susana Borges, Ana P. Carvalho, and Ana R. Silva. "Porous Silicas and Respective Carbon Replicates for Adsorption and Catalysis." Adsorption Science & Technology 28, no. 8-9 (2010): 717–26. http://dx.doi.org/10.1260/0263-6174.28.8-9.717.

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Schulz-Ekloff, Günter, Dieter Wöhrle, Bast van Duffel, and Robert A. Schoonheydt. "Chromophores in porous silicas and minerals: preparation and optical properties." Microporous and Mesoporous Materials 51, no. 2 (2002): 91–138. http://dx.doi.org/10.1016/s1387-1811(01)00455-3.

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Moragues, Alaina, Carmen Guillem, Adela Mauri-Aucejo, et al. "Enlarged pore size in nanoparticulated bimodal porous silicas: Improving accessibility." Microporous and Mesoporous Materials 221 (February 2016): 150–58. http://dx.doi.org/10.1016/j.micromeso.2015.09.037.

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Tzialla, O., G. Kakosimos, C. Athanasekou, et al. "Porous carbons from ionic liquid precursors confined within nanoporous silicas." Microporous and Mesoporous Materials 223 (March 2016): 163–75. http://dx.doi.org/10.1016/j.micromeso.2015.11.002.

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Frisch, Harry L., Jay M. West, Christine G. Göltner, and George S. Attard. "Pseudo IPNs and IPNs of two porous silicas and polystyrene." Journal of Polymer Science Part A: Polymer Chemistry 34, no. 9 (1996): 1823–26. http://dx.doi.org/10.1002/(sici)1099-0518(19960715)34:9<1823::aid-pola22>3.0.co;2-7.

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