A versatile salicylic acid precursor method for preparing titanate microspheres

Liu, Wei; Qu, Yang; Zhou, Wei; Ren, Zhiyu; Jiang, Baojiang; Wang, Guofeng; Jiang, Le; Yuan, Fang; Fu, Honggang

doi:10.1007/s40843-015-0029-2

Cited by 6 publications

(4 citation statements)

References 29 publications

(22 reference statements)

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“…Semiconductor photocatalysis provides environmentally friendly methods for splitting water to produce clean H2 and O2 energy and the decomposition of organic contaminants with the assistance of solar light, and it is therefore considered to be a promising strategy for mitigating energy shortages and realizing environmental remediation [1,2]. In this context, H2 and O2 have attracted remarkable interest as promising energy carriers as they do not produce the greenhouse gas CO2 [3,4].…”

Section: Introductionmentioning

confidence: 99%

Hydrogenated TiO2/SrTiO3 porous microspheres with tunable band structure for solar-light photocatalytic H2 and O2 evolution

et al. 2016

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The production of H2 and O2 from solar-light photocatalytic water splitting has attracted significant research attention as a clean and renewable source of energy. In this study, hydrogenated TiO2/SrTiO3 porous microspheres were prepared as a high-performance photocatalyst. Titanium glycerolate and then strontium complex precursors were first prepared via a two-step solvothermal process, then, after calcination in air and subsequent H2/Ar reduction treatments, hydrogenated TiO2/SrTiO3 porous microspheres with controllable defects and band positions were prepared. Several characterization techniques were used to demonstrate that the catalyst heterostructures, the oxygen-vacancy content, and the unique porous structures synergistically enhanced the visible-light harvesting abilities and photogenerated charge separation, and resulted in improved photocatalytic efficiency for H2 and O2 evolution. As expected, the optimum treatment conditions provided hydrogenated TiO2/SrTiO3 porous microspheres that showed excellent photocatalytic activity with H2 and O2 evolution rates of 239.97 and 103.79 μmol h −1 (50 mg catalyst, under AM 1.5 irradiation), respectively, which were ca. 5.9 and 6.6 times higher, respectively, than those of solid TiO2/SrTiO3 materials. Thus, this type of hydrogenated TiO2/SrTiO3 porous microsphere catalyst shows great potential as a photocatalyst for solar-energy conversion applications.

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Section: Introductionmentioning

confidence: 99%

Hydrogenated TiO2/SrTiO3 porous microspheres with tunable band structure for solar-light photocatalytic H2 and O2 evolution

et al. 2016

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“…In order to optimize the properties for specific applications, manipulation of the shape and structure (solid vs. hollow), including creating more novel functional structures/shapes, is still urgently in need [17][18][19]. This goal may be fulfilled by adopting an effective additive to modulate the nucleation and growth processes of MOF crystals [20][21][22][23].…”

Section: Introductionmentioning

confidence: 99%

Tuning the growth of metal-organic framework nanocrystals by using polyoxometalates as coordination modulators

Lü

Yang

et al. 2015

Sci. China Mater.

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Host-guest supramolecular interactions, which exist widely between diverse metal cations and polyoxometalate (POM) anions, have always been utilized to construct metal-organic frameworks (MOF) /POMs bulk composites. Actually, the interactions can also be found application in realizing shape-controlled synthesis of MOF nanocrystals (NCs). In this context, simply by introducing Keggin-type POMs into MOF precursors, various uniform [Cu3(BTC)2]n (BTC = benzene-1,3,5-tricarboxylate) NCs, including (truncated) octahedrons, hollow hierarchical spheres and octahedrons, are fabricated. Besides, such reaction system can be applied to construct noble metal@ MOF nanocomposite, which significantly enhances the catalytic performance of the noble metal.

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“…Compared to their bulk counterparts, nanomaterials often exhibit very different properties, such as surface effects, small size effects, quantum confinement effects, and show a series of unusual behaviors in terms of electronics, optics, magnetics, thermal conductivity, and more [21][22][23][24][25][26][27][28]. Studies detailing new concepts, controllable methodologies, novel structures, and comprehensive applications of these nanomaterials are plentiful [29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44].…”

Section: Introductionmentioning

confidence: 99%

Three-dimensional architectures constructed using two-dimensional nanosheets

Wang

2015

Sci. China Chem.

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Two-dimensional (2D) nanomaterials such as transition metal dichalcogenides (TMDs) and graphene have attracted extensive interest as emergent materials, owing to their excellent properties that favor their future use in electronic devices, catalysis, optics, and biological-or energy-relevant areas. However, 2D nanosheets tend to easily restack and condense, which weakens their performance in many of these applications. Assembling these 2D nanosheets as building blocks for three-dimensional (3D) architectures not only maintains the intrinsic performances of the 2D nanostructures but also synergistically makes use of the advantages of the 3D microstructures to improve the overall material properties. In this critical review, we will highlight recent developments of sundry 2D nanosheet-assembled 3D architectures, including their design, synthesis, and potential applications. Their controllable syntheses, novel structures, and potential applications will be systematically explained, analyzed, and summarized. In the end, we will offer some perspective on the challenges facing future advancement of this field.

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A versatile salicylic acid precursor method for preparing titanate microspheres

Cited by 6 publications

References 29 publications

Hydrogenated TiO2/SrTiO3 porous microspheres with tunable band structure for solar-light photocatalytic H2 and O2 evolution

Hydrogenated TiO2/SrTiO3 porous microspheres with tunable band structure for solar-light photocatalytic H2 and O2 evolution

Tuning the growth of metal-organic framework nanocrystals by using polyoxometalates as coordination modulators

Three-dimensional architectures constructed using two-dimensional nanosheets

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