Nanocone Decorated ZnO Microspheres Exposing the (0001) Plane and Enhanced Photocatalytic Properties

Greer, Heather F.; Zhou, Wuzong; Zhang, Guan; Ménard, Hervé

doi:10.1002/admi.201601238

Cited by 20 publications

(6 citation statements)

References 40 publications

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“…A cross section SEM image of a spherulite shown in the inset of Figure a demonstrates a radial arrangement of microrods. The principal driving force of the ordering of the nanocrystallites into such a novel microstructure is probably a dipolar field as discussed in the previous reports on the formation of synthesized vaterite spherulites, naturally occurring aragonite spherulites, synthesized ZnO microspheres. , …”

Section: Resultsmentioning

confidence: 95%

“…The principal driving force of the ordering of the nanocrystallites into such a novel microstructure is probably dipolar field as discussed in the previous reports on the formation of synthesized vaterite spherulites, 16 naturally occurring aragonite spherulites, 17 synthesized ZnO microspheres. 27,28 It was noted that when the reaction time was increased to 24 h, the number of rhombohedral crystals significantly increased and the number of the spherulites decreased. The spherulites almost disappeared when the growth time was further increased to 48 h, leaving only rhombohedral crystals.…”

Section: Synthetic Spherulitesmentioning

confidence: 99%

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Naturally Occurring and Biomimetic Synthesized Calcite Spherulites

Blake

Guo³

et al. 2020

Crystal Growth & Design

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Naturally occurring calcite spherulitic particles were collected from East Kirkton Quarry in Bathgate, Scotland. Their microstructure has been revealed, by using XRD, EDX, SEM and HRTEM, to consist of a low crystallinity core with deposition of multilayer radially oriented calcite microrods. The surrounding materials of the spherulites are mainly Ca-free silicates. To understand the formation mechanism of this construction of calcite crystals, biomimetic synthesis of similar spherulites have been carried out by using alginate and stevensite as structure directing agents. It is found that alginate is essential for growth of the spherulites, since the spherulites are developed only when they are embedded in the alginate network, a soft matter substrate. Stevensite also plays an important role of adjusting the hardness of the alginate substrate, offering a suitable network for the self-aggregation and self-orientation of the calcite nanocrystals. Possible inter-particle interactions or driving force of the particle aggregation and self-orientation are discussed.

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Section: Resultsmentioning

confidence: 95%

Section: Synthetic Spherulitesmentioning

confidence: 99%

Naturally Occurring and Biomimetic Synthesized Calcite Spherulites

Blake

Guo³

et al. 2020

Crystal Growth & Design

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“…Engineering of the surface structure in the micro-or nano-scale to expose a large percentage of {0001} facets has been reported for ZnO. [32][33][34][35] In the present work, the detailed formation processes of both ZnO spherulites and its derivative morphologies including disc decorated microspheres, sea urchin-like, mushroom-like and wood gyro-like microparticles were investigated. For the construction of spherulites, nucleation and development of ZnO nanocrystallites must take place inside a gel like organic substrate.…”

Section: Introductionmentioning

confidence: 93%

“…Theoretical and experimental studies have shown that {0001} facets of ZnO are extraordinarily reactive compared to other crystal facets. Engineering of the surface structure in the micro- or nanoscale to expose a large percentage of {0001} facets has been reported for ZnO. − …”

Section: Introductionmentioning

confidence: 99%

Formation Mechanisms of ZnO Spherulites and Derivatives

Connolly

Greer

Zhou

2018

Crystal Growth & Design

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ZnO microparticles have been solvothermally synthesized from zinc acetate and formic acid. The resulting microspherulites consist of radially arranged nanorods which undergo a range of re-crystallisation pathways to produce particles with different terminal morphologies. Crystallisation on the particle surface results in hexagonal microdisc decorated hierarchical microspheres. These particles expose only the (0001) crystallographic plane of ZnO and further develop into a sea-urchin like morphology, when the microdiscs grow up along the [0001] direction into hexagonal microrods. Alternatively, crystallisation of the particle core into a ZnO plate, facilitates asymmetric assembly of nanocrystallites, forming a hexagonal cone on one side of the plate. The particle has a mushroom-like terminal morphology. When simultaneous surface and core re-crystallisation takes place, wood gyro-shaped particles are observed, in which all the surface discs face a single direction. The microstructures of the particles were investigated using XRD, electron microscopy and surface colouring with adsorbed charged dyes. Structural studies of the early growth stages and subsequent morphology evolution support a dipole field driven formation mechanism. This work offers an improved understanding of the formation of other spherulites, in particular, naturally occurring mineral calcium carbonate spherulites.

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“…Even in a more intricate way when the material is of nanometric scale. Engineering the design of porous material in clays is intended to change porosity, surface area 14 , surface content of solids, as well as thermal stability 15 .…”

Section: Porous Materials and Frameworkmentioning

confidence: 99%

Porous frameworks from Ecuadorian clays

Luzuriaga

Ávila

Viloria

2022

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This research provides a literature review on several topics as a foundation to comprehend porous materials, their structure, and behavior to explore how they can be derived from clays and nanoclays. In this case, considering the several minerals present in some Ecuadorian clays, which are a potential starting material for the synthesis of porous frameworks, they constitute a solid source of metal atoms such as Silicon or Aluminum. This research presents the evaluation and characterization via XRD and AAS of clay samples collected in the southeast of Ecuador in the provinces of Azuay, Morona Santiago and Zamora Chinchipe, which present diversified soil mineralogy with many chemical and crystallographic features for suitable precursors in nanomaterials design.

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Nanocone Decorated ZnO Microspheres Exposing the (0001) Plane and Enhanced Photocatalytic Properties

Cited by 20 publications

References 40 publications

Naturally Occurring and Biomimetic Synthesized Calcite Spherulites

Naturally Occurring and Biomimetic Synthesized Calcite Spherulites

Formation Mechanisms of ZnO Spherulites and Derivatives

Porous frameworks from Ecuadorian clays

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