Dimensional and Structural Control of Silica Aerogel Membranes for Miniaturized Motionless Gas Pumps

Zhao, Shanyu; Jiang, Bo; Maeder, Thomas; Muralt, Paul; Kim, Nayoung; Matam, Santhosh Kumar; Jeong, Eun-Ho; Han, Yen-Lin; Koebel, Matthias M.

doi:10.1021/acsami.5b05462

Cited by 30 publications

(21 citation statements)

References 70 publications

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“…A detailed examination of the aerogel materials under TEM (Figure 7) verifies a hierarchical porous structure with a typical pearl necklace structure with most of the primary colloidal particles in a range of 5-8 nm and 1-2 nm interparticle pores, which is in agreement with the reported typical waterglass-based silica aerogel structures [28]. The hierarchical structure of the aerogel materials observed from the microscopic analysis is mainly attributed to the different size of "building blocks" of the gel particles; the TEM shows around 5 nm primary SiO 2 particles; the primary particles were agglomerated to build the secondary clusters and shown as the blackberry structure in the SEM images.…”

Section: Microstructure Of Silica Aerogels Derived From Coalsupporting

confidence: 84%

“…The BJH pore size analysis is mostly valid for the pore size in the range of ∼ 1 to 150 nm (mesopores and part of macroporous regime); therefore, some of the big pores built by the secondary clusters (shown in SEM, Figure 6) are not detectable. But the pore size and surface area of the coal gangue derived aerogel are comparable to the typical aerogels prepared from TEOS and waterglass [28]; in this case, it could be assumed that the large macropores are the minority species and indicate that the aerogel materials prepared from coal gangue present similar structures as typical silica aerogel [29] and should display identical performance, that is, thermal insulation, to such material.…”

Section: Microstructure Of Silica Aerogels Derived From Coalmentioning

confidence: 84%

“…The in-house measurement device was calibrated by the standard material (Expanded Polystyrene Board) with known thermal conductivity and measurements were repeated 3 times with the deviation of 3.9%. A slight higher value (typical silica aerogel thermal conductance of 12-18 × 10 −3 W m −1 K −1 ) [28] is probably due to a high bulk density of the gel and loosely packed aerogel granule during measurement [30].…”

Section: Thermal Conductivity Of Coal Gangue Derived Silicamentioning

confidence: 98%

“…The N 2 adsorption-desorption isotherms and relevant pore size distribution of the aerogel prepared from CSi-4-1 are shown in Figure 8. The BET measurement could be influenced equilibrium intervals of the gas adsorption [28]. Therefore, in this paper, we tried to repeat the measurements twice with different equilibration times, and the deviations of the main parameters (e.g., surface area, pore size, and pore volume) were around 5%.…”

Section: Microstructure Of Silica Aerogels Derived From Coalmentioning

confidence: 99%

See 3 more Smart Citations

A Novel Environmental Route to Ambient Pressure Dried Thermal Insulating Silica Aerogel via Recycled Coal Gangue

Zhu

Zheng

Zhao³

et al. 2016

Advances in Materials Science and Engineering

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Coal gangue, one of the main hazardous emissions of purifying coal from coalmine industry, is rich in silica and alumina. However, the recycling of the waste is normally restricted by less efficient techniques and low attractive output; the utilization of such waste is still staying lower than 15%. In this work, the silica aerogel materials were synthesized by using a precursor extracted from recycled silicon-rich coal gangue, followed by a single-step surface silylation and ambient pressure drying. A low density (~0.19 g/cm3) nanostructured aerogel with a 3D open porous microstructure and high surface area (~690 m2/g) was synthesized, which presents a superior thermal insulation performance (~26.5 mW·m−1·K−1of a plane packed of 4-5 mm granules which was confirmed by transient hot-wire method). This study offers a new facile route to the synthesis of insulating aerogel material by recycling solid waste coal gangue and presents a potential cost reduction of industrial production of silica aerogels.

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Section: Microstructure Of Silica Aerogels Derived From Coalsupporting

confidence: 84%

Section: Microstructure Of Silica Aerogels Derived From Coalmentioning

confidence: 84%

Section: Thermal Conductivity Of Coal Gangue Derived Silicamentioning

confidence: 98%

Section: Microstructure Of Silica Aerogels Derived From Coalmentioning

confidence: 99%

See 2 more Smart Citations

A Novel Environmental Route to Ambient Pressure Dried Thermal Insulating Silica Aerogel via Recycled Coal Gangue

Zhu

Zheng

Zhao³

et al. 2016

Advances in Materials Science and Engineering

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“…Silica aerogels are thermal superinsulators with thermal conductivities as low as 12 mW/(m$K), i.e., less than half the value of conventional insulation, because of their small pore sizes in the order of the mean free path of air, limiting the gas phase conduction [3,4]. Aerogels also find use in other applications, such as waste management (gas absorption, radioactive waste confinement), laser experiments, sensors (ultrasonic and gas) [5], nuclear particle detection (Cherenkov), optics (lightguides) [6], Knudsen pump [7], electronic devices, capacitors, high explosive research and catalysts [8].…”

Section: Introductionmentioning

confidence: 99%

Effect of aging on silica aerogel properties

Iswar

Malfait

Balog

et al. 2017

Microporous and Mesoporous Materials

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129

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Silica aerogels' unique physical and chemical properties make them fascinating materials for a wide variety of applications. In addition to hydrophobization by silylation, aging is very important in the synthesis of silica aerogel by ambient pressure drying. Here we systematically study the effect of aging on the physico-chemical properties of silica aerogel with emphasis on ambient dried materials. Silica gels were aged for different times and at different temperatures in their gelation liquid (without solvent exchange), hydrophobized in hexamethyldisiloxane and subsequently dried either at ambient pressure or from supercritical CO 2 . Dynamic oscillatory rheological measurements demonstrate that aging reinforces the alcogels, particularly at high strain. The specific surface area decreases with increasing aging time and temperature as a consequence of Ostwald ripening processes during aging. With increasing aging time and temperature, the linear shrinkage and bulk density decrease and the pore size and pore volume increase for the ambient dried gels, but remain nearly constant for supercritically dried gels. Small-Angle X-ray scattering does not detect significant structural changes at length scales smaller than about hundred nanometers, but hints at systematic variations at larger length scales. The findings of this study highlight the importance of aging to increase the ability of the gel particle network to withstand irreversible pore collapse during ambient pressure drying.

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Aerogels

Смирнова¹,

Gurikov²,

Subrahmanyam³

2021

Kirk-Othmer Encyclopedia of Chemical Technology

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Aerogels are a class of open nonfluid porous solid materials known for their low density, high specific surface area, and accessible pores. This combination of characteristics makes them highly promising for a wide gamut of applications ranging from thermal and acoustic insulation, catalysts and sensors, adsorbents and absorbents, energy storage, carriers for drug delivery and nutrition, and scaffolds for tissue engineering and regenerative medicine to starting materials for carbon aerogels and porous mixed oxides. Aerogel technology has faced significant bottlenecks in its commercialization, since its discovery in the 1930s, due to limited technical information and processing expertise required for production scaling. This article presents the significant technology developments in the past 10 years, highlighting the paradigm shift in aerogel processing. Lastly, this article invites the reader to envisage and contribute to a new generation of aerogel materials and applications with the fundamental tenets of aerogel production and pore engineering.

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Dimensional and Structural Control of Silica Aerogel Membranes for Miniaturized Motionless Gas Pumps

Cited by 30 publications

References 70 publications

A Novel Environmental Route to Ambient Pressure Dried Thermal Insulating Silica Aerogel via Recycled Coal Gangue

A Novel Environmental Route to Ambient Pressure Dried Thermal Insulating Silica Aerogel via Recycled Coal Gangue

Effect of aging on silica aerogel properties

Aerogels

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