Surface and Structural Modification of Nanostructured Mesoporous Silicon Oxycarbide Glasses Obtained from Preceramic Hybrids Aged in <scp>NH</scp><sub>4</sub><scp>OH</scp>

Tamayo, Aitana; Rubio, F.; Rubio, J.; Oteo, J. L.

doi:10.1111/jace.12000

Cited by 11 publications

(4 citation statements)

References 56 publications

(106 reference statements)

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“…They have been obtained through various approaches, including direct blowing, sol-gel processing, sacrificial organosilane linkages, templates, electrohydrodynamic forming, and others [18][19][20][21]. The sol-gel approach is one of the most promising methods for synthesizing porous SiOC ceramics with an average pore size ranging from several micrometers to millimeters.…”

Section: Introductionmentioning

confidence: 99%

High temperature structure evolution of macroporous SiOC ceramics prepared by a sol–gel method

Liu

Meng

Zhang

et al. 2015

Ceramics International

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Section: Introductionmentioning

confidence: 99%

High temperature structure evolution of macroporous SiOC ceramics prepared by a sol–gel method

Liu

Meng

Zhang

et al. 2015

Ceramics International

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“…Grossenbacher et al [148] demonstrated that the polymer-derived ceramics were stable and low toxicity, and their electrical conductivity could be adjusted by carbon doping, which could be used in implantable electrode applications such as pacemakers. Tamayo et al [149][150][151] fabricated mesoporous SiOC for controlled drug delivery. A mixture of organosilicon sol was prepared and aged to form gel by the addition of NH 4 OH solution, which transferred into SiOC after pyrolysis at 1100 ℃.…”

Section: Wwwspringercom/journal/40145mentioning

confidence: 99%

Organosilicon polymer-derived ceramics: An overview

Zhu

2019

J Adv Ceram

142

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Polymer-derived ceramics (PDCs) strategy shows a great deal of advantages for the fabrication of advanced ceramics. Organosilicon polymers facilitate the shaping process and different silicon-based ceramics with controllable components can be fabricated by modifying organosilicon polymers or adding fillers. It is worth noting that silicate ceramics can also be fabricated from organosilicon polymers by the introduction of active fillers, which could react with the produced silica during pyrolysis. The organosilicon polymer-derived ceramics show many unique properties, which have attracted many attentions in various fields. This review summarizes the typical organosilicon polymers and the processing of organosilicon polymers to fabricate silicon-based ceramics, especially highlights the three-dimensional (3D) printing technique for shaping the organosilicon polymerderived ceramics, which makes the possibility to fabricate silicon-based ceramics with complex structure. More importantly, the recent studies on fabricating typical non-oxide and silicate ceramics derived from organosilicon polymers and their biomedical applications are highlighted.

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“…These bonds are responsible for durability both of xerogels and glass, which is obtained after thermal processing [ 41 ]. It is during the pyrolysis process when the pores are formed, and their size and shape depend mainly on precursors and the type of solvent used in synthesis [ 42 , 43 , 44 ].…”

Section: Introductionmentioning

confidence: 99%

Chemical Structure and Microstructure Characterization of Ladder-Like Silsesquioxanes Derived Porous Silicon Oxycarbide Materials

et al. 2021

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The aim of this work was to synthesize porous ceramic materials from the SiOC system by the sol-gel method and the subsequent pyrolysis. The usage of two types of precursors (siloxanes) was determined by Si/C ratio in starting materials. It allows us to control the size of the pores and specific surface area, which are crucial for the potential applications of the final product after thermal processing. Methyltrimethoxysilane and dimethyldiethoxysilane were mixed in three different molar ratios: 4:1, 2:1, and 1:1 to emphasize Si/C ratio impact on silicon oxycarbide glasses properties. Structure and microstructure were examined both for xerogels and obtained silicon oxycarbide materials. Brunauer-Emmett-Teller (BET) analysis was performed to confirm that obtained materials are porous and Si/C ratio in siloxanes precursors affects porosity and specific surface area. This kind of porous ceramics could be potentially applied as gas sensors in high temperatures, catalyst supports, filters, adsorbents, or advanced drug delivery systems.

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Surface and Structural Modification of Nanostructured Mesoporous Silicon Oxycarbide Glasses Obtained from Preceramic Hybrids Aged in NH₄OH

Cited by 11 publications

References 56 publications

High temperature structure evolution of macroporous SiOC ceramics prepared by a sol–gel method

High temperature structure evolution of macroporous SiOC ceramics prepared by a sol–gel method

Organosilicon polymer-derived ceramics: An overview

Chemical Structure and Microstructure Characterization of Ladder-Like Silsesquioxanes Derived Porous Silicon Oxycarbide Materials

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Surface and Structural Modification of Nanostructured Mesoporous Silicon Oxycarbide Glasses Obtained from Preceramic Hybrids Aged in NH4OH

Cited by 11 publications

References 56 publications

High temperature structure evolution of macroporous SiOC ceramics prepared by a sol–gel method

High temperature structure evolution of macroporous SiOC ceramics prepared by a sol–gel method

Organosilicon polymer-derived ceramics: An overview

Chemical Structure and Microstructure Characterization of Ladder-Like Silsesquioxanes Derived Porous Silicon Oxycarbide Materials

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Surface and Structural Modification of Nanostructured Mesoporous Silicon Oxycarbide Glasses Obtained from Preceramic Hybrids Aged in NH₄OH