Bi-directional Kirkendall Effect in Coaxial Microtube Nanolaminate Assemblies Fabricated by Atomic Layer Deposition

Peng, Qing; Sun, Xiaoyu; Spagnola, Joseph C.; Saquing, Carl D.; Khan, Saad A.; Spontak, Richard J.; Parsons, Gregory N.

doi:10.1021/nn8006543

Cited by 74 publications

(62 citation statements)

References 22 publications

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“…[1][2][3][4][5][6][7][8][9][10] In fact ALD can yield coral, 6 core-shell, 4,5,11 hollow 6,7,9 like complex nanostructures. Although various polymers are the subjects of electrospinning, the compatibility between the polymer and the ALD precursor is vital.…”

Section: Introductionmentioning

confidence: 99%

Water-soluble non-polymeric electrospun cyclodextrin nanofiber template for the synthesis of metal oxide tubes by atomic layer deposition

et al. 2014

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We report on the suitability of water-soluble non-polymeric electrospun cyclodextrin (CD) nanofiber templates by using atomic layer deposition (ALD) to yield metal oxide tubes. To demonstrate this, watersoluble electrospun CD nanofibers were chosen as template to produce metal oxide tubes where we have tested two examples of ALD coatings, namely, Al 2 O 3 and ZnO. After the ALD coating on the CD nanofibers, the CD core is simply dissolved in water to yield metal oxide tubes. Morphological investigations suggested that Al 2 O 3 is smoother in contrast to ZnO which shows a grainy structure.Structural characterization evidenced amorphous Al 2 O 3 and highly crystalline ZnO. Given the applicability of Al 2 O 3 and ZnO in various contexts the ionic states of Al, Zn and O are also investigated.After the washing step to remove the CD core, Al 2 O 3 developed some hydroxylation, while ZnO hosts various oxygen related functional groups.

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Section: Introductionmentioning

confidence: 99%

Water-soluble non-polymeric electrospun cyclodextrin nanofiber template for the synthesis of metal oxide tubes by atomic layer deposition

et al. 2014

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“…The vacancy supersaturation and Kirkendall void production resulted in two isolated ZnAl 2 O 4 spinel nanotubes. The Kirkendall gap between the tubein-tube structure was influenced by the intermediate ZnO layer [64].…”

Section: Inorganic Nanotubes Prepared By Electrospinning and Aldmentioning

confidence: 99%

Review on one-dimensional nanostructures prepared by electrospinning and atomic layer deposition

Szilágyi¹,

Nagy²

2014

J. Phys.: Conf. Ser.

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Abstract. This paper reviews the various 1D nanostructures, which were prepared by electrospinning and atomic layer deposition (ALD). On the one hand, electrospinning served to make sacrificial polymer templates for the ALD growth; and thus various single or multilayer inorganic nanotubes were obtained. On the other hand, polymer, polymer/inorganic or inorganic nanowire templates were produced by electrospinning. By a consecutive ALD reaction various core/shell nanowires were synthesized.

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“…PVA interacts with other materials in electrode position to form a mixed membrane within a polymer matrix. At high temperatures, mesoporous PVA/silica nanofiber membranes can be synthesized; however, such temperatures remove the organic groups from the matrix, which renders the nanofiber membranes unsuitable for application in water treatment [10][11][12][13] . Electrospinning is a simple, inexpensive, convenient, effective, and widely used technique for generating nanofiber membrane materials that has recently attracted a great deal of attention.…”

Section: Introductionmentioning

confidence: 99%

Preparation and characterization of UV-cured hybrid polyvinyl alcohol nanofiber membranes by electrospinning

et al. 2014

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The present study investigated the possibility of preparing polyvinyl alcoholic (PVA) organicinorganic hybrid nanofiber membranes by electrospinning with UV irradiation. To this end, PVA, PVA/SiO 2 organic-inorganic hybrid obtained with Geniosil® XL 33 as a SiO 2 source, and imidazolefunctionalized mesoporous PVA/SiO 2 /N=N nanofiber membranes were synthesized. These membranes were characterized by Fourier transform infrared spectroscopy, scanning electron microscopy, thermogravimetric-differential thermal analysis, and Brunauer-Emmett-Teller analysis. According to results, fine polymeric nanofibers were obtained in the size range of 100-200 nm for pure PVA nanofibers and 150-250 nm for PVA/SiO 2 hybrid nanofibers, while imidazole-functionalized PVA/ SiO 2 nanofibers were less than 100 nm. The membranes produced are suitable for use in various applications, including filtration and adsorption, in the biomedical and textile industries, among others.

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Bi-directional Kirkendall Effect in Coaxial Microtube Nanolaminate Assemblies Fabricated by Atomic Layer Deposition

Cited by 74 publications

References 22 publications

Water-soluble non-polymeric electrospun cyclodextrin nanofiber template for the synthesis of metal oxide tubes by atomic layer deposition

Water-soluble non-polymeric electrospun cyclodextrin nanofiber template for the synthesis of metal oxide tubes by atomic layer deposition

Review on one-dimensional nanostructures prepared by electrospinning and atomic layer deposition

Preparation and characterization of UV-cured hybrid polyvinyl alcohol nanofiber membranes by electrospinning

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