Ordered Mesoporous Tin Oxide Semiconductors with Large Pores and Crystallized Walls for High-Performance Gas Sensing

Xiao, Xingyu; Liu, Liangliang; Ma, Junhao; Ren, Yuan; Cheng, Xiaowei; Zhu, Yongheng; Zhao, Dongyuan; Elzatahry, Ahmed A.; Alghamdi, Abdulaziz; Deng, Yonghui

doi:10.1021/acsami.7b18830

Cited by 102 publications

(58 citation statements)

References 72 publications

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“…8 ), while S PVP and S TritonX-100 exhibit the higher gas response to H 2 S due to their polyporous flower-like nanostructures, proving good selectivity of S TritonX-100 and S PVP toward H 2 S. The good selectivity of the samples to H 2 S can be explained as follows: when the SnO 2 sensor is exposed in H 2 S gas, both chemisorbed oxygen species and SnO 2 nanostructure react with H 2 S during sensing measurement to form SO 2 and SnS 2 , respectively. Compared with SnO 2 , the body resistance of SnS 2 is relatively smaller, leading to the sensitivity enhancement of the gas sensor [ 39 ]. On the contrary, the SnO 2 sensor does not react with any other target gases, such as formaldehyde, methanol, ethanol, and acetone.…”

Section: Resultsmentioning

confidence: 99%

Effect of Surfactants on the Microstructures of Hierarchical SnO2 Blooming Nanoflowers and their Gas-Sensing Properties

et al. 2018

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Hierarchical SnO2 blooming nanoflowers were successfully fabricated via a simple yet facile hydrothermal method with the help of different surfactants. Here we focus on exploring the promotion effects of surfactants on the self-assembly of 2D SnO2 nanosheets into 3D SnO2 flower-like structures as well as their gas-sensing performances. The polyporous flower-like SnO2 sensor exhibits excellent gas-sensing performances to ethanol and H2S gas due to high porosity when polyvinyl pyrrolidone is added into the precursor solution as a surfactant. The response/recovery times were about 5 s/8 s for 100 ppm ethanol and 4 s/20 s for 100 ppm H2S, respectively. Especially, the maximum response value of H2S is estimated to be 368 at 180 °C, which is one or two orders of magnitude higher than that of other test gases in this study. That indicates that the sensor fabricated with the help of polyvinyl pyrrolidone has good selectivity to H2S.

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Section: Resultsmentioning

confidence: 99%

Effect of Surfactants on the Microstructures of Hierarchical SnO2 Blooming Nanoflowers and their Gas-Sensing Properties

et al. 2018

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“…Mesoporous oxides with nanometric dimensions have shown potential in energy storage, catalysis, sensing, and adsorption . Since the discovery of mesoporous silica at the beginning of the 1990s, many different mesoporous oxides have been reported, such as TiO 2 , Fe 2 O 3 , NiO, and Co 3 O 4 .…”

Section: Introductionmentioning

confidence: 99%

“…To date, mesoporousm aterials have been developed by using various synthetic methods, including soft-templating, [1][2][3] hard-templating, [4][5][6] free-templating, [7,8] nano-casting, [9,10] and electrochemi- International Center for Materials Nanoarchitectonics( WPI-MANA) and International Center for Young Scientists (ICYS) NationalInstitute for Materials Science (NIMS) 1-1 Namiki, Tsukuba, Ibaraki305-0044 (Japan) E-mail:KANETI.Valentino@nims.go.jp cal methods [11,12] with various degree of control over the shape, porosity,a nd surfacea rea.D ue to their unique physicochemicalp roperties, mesoporous materials have been employed for aw ide variety of applications, including environmental (e.g.,p hotocatalysis, [13,14] adsorption or separation of heavy metals, [15,16] and carbon monoxide oxidation [17,18] ), chemical (e.g.,h ydrogen evolution reaction (HER), [19] oxygen reduction reaction( ORR), [20] and oxygen evolution reaction (OER) [21] ) as well as biomedical applications( e.g.,m agnetic resonance imaging (MRI), [22] ultrasound imaging, and photothermal therapy [23] and immunosensor [24] ). Mesoporouso xides with nanometric dimensions have shown potential in energy storage, [25,26] catalysis, [27,28] sensing, [29,30] and adsorption. [31] Since the discoveryo fm esoporous silica at the beginning of the 1990s, many different mesoporous oxidesh ave been reported, such as TiO 2 , [13,14] Fe 2 O 3 , [30,32] NiO, [3,33] and...…”

Section: Introductionmentioning

confidence: 99%

Biomolecule‐Assisted Synthesis of Hierarchical Multilayered Boehmite and Alumina Nanosheets for Enhanced Molybdenum Adsorption

Saptiama

Kaneti

Yuliarto

et al. 2019

Chemistry A European J

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The effective utilization of various biomolecules for creating a series of mesoporous boehmite (γ‐AlOOH) and gamma‐alumina (γ‐Al2O3) nanosheets with unique hierarchical multilayered structures is demonstrated. The nature and concentration of the biomolecules strongly influence the degree of the crystallinity, the morphology, and the textural properties of the resulting γ‐AlOOH and γ‐Al2O3 nanosheets, allowing for easy tuning. The hierarchical γ‐AlOOH and γ‐Al2O3 multilayered nanosheets synthesized by using biomolecules exhibit enhanced crystallinity, improved particle separation, and well‐defined multilayered structures compared to those obtained without biomolecules. More impressively, these γ‐AlOOH and γ‐Al2O3 nanosheets possess high surface areas up to 425 and 371 m2 g−1, respectively, due to their mesoporous nature and hierarchical multilayered structure. When employed for molybdenum adsorption toward medical radioisotope production, the hierarchical γ‐Al2O3 multilayered nanosheets exhibit Mo adsorption capacities of 33.1–40.8 mg g−1. The Mo adsorption performance of these materials is influenced by the synergistic combination of the crystallinity, the surface area, and the pore volume. It is expected that the proposed biomolecule‐assisted strategy may be expanded for the creation of other 3D mesoporous oxides in the future.

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“…37,38 Recently, with the assistance of HCl-AcAc dual-ligand, ordered mesoporous crystalline SnO 2 can be obtained via classic EICA method with robust PEO-b-PS copolymer directed coassembly. 39 The acetylacetone-stabilized inorganic species were found to be ultrafine SnO 2 nanoclusters (ca. 2.5 nm), because the SnCl 4 precursor could be hydrolyzed even in the presence of trace water in THF.…”

Section: Ligand-assisted Assembly Strategymentioning

confidence: 99%

“…In our recent research, we proved that the gas sensing behavior is dependent on the crystal size of metal oxides in the pore wall of OMSMOs (Figure 8b). 39 In this regard, metal oxide homojunctions were generated between nanograins in the crystalline mesoporous framework, which could accelerate the diffusion of active oxygen species, and these oxygen species usually covered the surface of nanograins. It can capture electrons of these nanograins and generate electron depletion layer, generating potential barriers among the grain boundaries.…”

Section: Gas-sensing Mechanismmentioning

confidence: 99%

sp²-Hybridized Carbon-Containing Block Copolymer Templated Synthesis of Mesoporous Semiconducting Metal Oxides with Excellent Gas Sensing Property

et al. 2019

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In recent years, rational design of ordered mesoporous metal oxides, especially metal oxide semiconductors with adjustable pore architecture and framework compositions, has aroused extensive research interest owing to their unique electronic structures, long-range ordered porous framework, uniform mesopore size, and high specific surface area. Research on mesoporous materials has been booming in the past 30 years, and many synthesis methods have been developed, such as templating methods based on amphiphilic copolymers as soft templates or mesoporous carbon/silica as hard templates, respectively. Soft-templating synthesis has been considered as one of the most efficient and flexible methods in designing ordered mesoporous materials through the controllable interfacial induced coassembly process. However, most commercial amphiphilic copolymers, such as poly(ethylene oxide)-b-poly(propylene oxide) based Pluronic-type ones, suffer the drawback of poor thermal stability, because they are too easy to be decomposed even in inert atmosphere. Therefore, they are difficult to support the structures of mesoporous metal oxides under high calcination temperatures (>400°C). To solve this challenge, we designed new amphiphilic block copolymers with high content of sp 2-hybridized carbon in the hydrophobic segments that were relatively stable and could be in situ converted into residual carbon to support the mesoporous structure, via living free radical polymerization. We developed a variety of novel synthesis methods based on sp 2-hybridized carbon-containing block copolymer, such as ligand-assisted assembly and resol-assisted assembly strategies, achieving a controllable and versatile synthesis of mesoporous semiconducting metal oxides with excellent gas sensing performance. In this Account, we first outline the features of sp 2-hybridized carbon-containing block copolymers synthesized via living free radical polymerization, particularly their pyrolysis behavior in converting into residual carbon. Combining the solvent evaporation induced coassembly and the carbon-supported crystallization strategies, we realized the rational design of various ordered mesoporous semiconducting metal oxides (e.g., WO 3 , SnO 2 , Co 3 O 4 , In 2 O 3 , TiO 2 , ZnO) and the regulation of their architectural features. To overcome the fast hydrolysis rate of metal precursors and weak interaction between block copolymers and metal precursors, we developed efficient ligand-assisted (e.g., acetylacetone and acetic acid) coassembly and resol-assisted coassembly methods to retard hydrolysis behavior and enhance the interaction via hydrogen bonds, covalent bonds, electrostatic interactions, etc. We also highlight the applications of these ordered mesoporous semiconducting metal oxides of both n-type and p-type in gas sensing fields, and they show tremendous sensing performance due to their abundant active sites on electron depletion layer and rapid gas diffusion via accessible pore channels. Finally, on the basis of the classic surface-electron depletion...

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Ordered Mesoporous Tin Oxide Semiconductors with Large Pores and Crystallized Walls for High-Performance Gas Sensing

Cited by 102 publications

References 72 publications

Effect of Surfactants on the Microstructures of Hierarchical SnO2 Blooming Nanoflowers and their Gas-Sensing Properties

Effect of Surfactants on the Microstructures of Hierarchical SnO2 Blooming Nanoflowers and their Gas-Sensing Properties

Biomolecule‐Assisted Synthesis of Hierarchical Multilayered Boehmite and Alumina Nanosheets for Enhanced Molybdenum Adsorption

sp²-Hybridized Carbon-Containing Block Copolymer Templated Synthesis of Mesoporous Semiconducting Metal Oxides with Excellent Gas Sensing Property

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Ordered Mesoporous Tin Oxide Semiconductors with Large Pores and Crystallized Walls for High-Performance Gas Sensing

Cited by 102 publications

References 72 publications

Effect of Surfactants on the Microstructures of Hierarchical SnO2 Blooming Nanoflowers and their Gas-Sensing Properties

Effect of Surfactants on the Microstructures of Hierarchical SnO2 Blooming Nanoflowers and their Gas-Sensing Properties

Biomolecule‐Assisted Synthesis of Hierarchical Multilayered Boehmite and Alumina Nanosheets for Enhanced Molybdenum Adsorption

sp2-Hybridized Carbon-Containing Block Copolymer Templated Synthesis of Mesoporous Semiconducting Metal Oxides with Excellent Gas Sensing Property

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sp²-Hybridized Carbon-Containing Block Copolymer Templated Synthesis of Mesoporous Semiconducting Metal Oxides with Excellent Gas Sensing Property