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One-Step Formation of 3D Alternating-Layer Structures Composed of Plates of Nanocrystalline Bismuth Oxide and Spherical Particles of Metallic Bismuth. / Bokhonov, Boris B.; Yukhin, Yurii M.

в: Crystal Research and Technology, Том 52, № 9, 1700099, 01.09.2017.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

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Bokhonov BB, Yukhin YM. One-Step Formation of 3D Alternating-Layer Structures Composed of Plates of Nanocrystalline Bismuth Oxide and Spherical Particles of Metallic Bismuth. Crystal Research and Technology. 2017 сент. 1;52(9):1700099. doi: 10.1002/crat.201700099

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Bokhonov, Boris B. ; Yukhin, Yurii M. / One-Step Formation of 3D Alternating-Layer Structures Composed of Plates of Nanocrystalline Bismuth Oxide and Spherical Particles of Metallic Bismuth. в: Crystal Research and Technology. 2017 ; Том 52, № 9.

BibTeX

@article{21f7f91d53c74436abc9135ba0e2764e,
title = "One-Step Formation of 3D Alternating-Layer Structures Composed of Plates of Nanocrystalline Bismuth Oxide and Spherical Particles of Metallic Bismuth",
abstract = "Three-dimensional (3D) objects with a periodic structure composed of particles differing in composition and/or morphology have attracted a lot of attention due to their high potential for achieving new sets of properties nonexistent in single-phase materials and materials lacking a periodic structure. In this work, we have demonstrated a possibility of synthesizing a periodic heterostructure consisting of layers of nanocrystalline β-bismuth oxide and layers of spherical particles of metallic bismuth in a single step by conducting partial reduction of [Bi6O5(OH)3](NO3)5·3H2O in benzyl alcohol. The synthesis method of micrometer-sized particles of nanocrystalline β-Bi2O3/spherical Bi with a 3D periodic structure is proposed in this work for the first time. The mechanisms governing the interface formation during the synthesis of the β-Bi2O3/spherical Bi alternating-layer structure are discussed. The structural evolution of [Bi6O5(OH)3](NO3)5·3H2O during its partial reduction in benzyl alcohol shows an example of the strong interrelation between the phase composition, morphology and architecture of the reaction products derived from a single-phase precursor. The proposed synthesis method of the β-Bi2O3/spherical Bi alternating-layer 3D materials is easily scalable, shows good reproducibility and is based on simple experimental procedures.",
keywords = "3D layered structure self-assembly β-bismuth oxide spherical bismuth, NANOPARTICLES, LIQUID CELL, 3D layered structure self-assembly -bismuth oxide spherical bismuth, NANOSTRUCTURES, COLLOIDAL CRYSTALS, LITHOGRAPHY",
author = "Bokhonov, {Boris B.} and Yukhin, {Yurii M.}",
year = "2017",
month = sep,
day = "1",
doi = "10.1002/crat.201700099",
language = "English",
volume = "52",
journal = "Crystal Research and Technology",
issn = "0232-1300",
publisher = "John Wiley and Sons Inc.",
number = "9",

}

RIS

TY - JOUR

T1 - One-Step Formation of 3D Alternating-Layer Structures Composed of Plates of Nanocrystalline Bismuth Oxide and Spherical Particles of Metallic Bismuth

AU - Bokhonov, Boris B.

AU - Yukhin, Yurii M.

PY - 2017/9/1

Y1 - 2017/9/1

N2 - Three-dimensional (3D) objects with a periodic structure composed of particles differing in composition and/or morphology have attracted a lot of attention due to their high potential for achieving new sets of properties nonexistent in single-phase materials and materials lacking a periodic structure. In this work, we have demonstrated a possibility of synthesizing a periodic heterostructure consisting of layers of nanocrystalline β-bismuth oxide and layers of spherical particles of metallic bismuth in a single step by conducting partial reduction of [Bi6O5(OH)3](NO3)5·3H2O in benzyl alcohol. The synthesis method of micrometer-sized particles of nanocrystalline β-Bi2O3/spherical Bi with a 3D periodic structure is proposed in this work for the first time. The mechanisms governing the interface formation during the synthesis of the β-Bi2O3/spherical Bi alternating-layer structure are discussed. The structural evolution of [Bi6O5(OH)3](NO3)5·3H2O during its partial reduction in benzyl alcohol shows an example of the strong interrelation between the phase composition, morphology and architecture of the reaction products derived from a single-phase precursor. The proposed synthesis method of the β-Bi2O3/spherical Bi alternating-layer 3D materials is easily scalable, shows good reproducibility and is based on simple experimental procedures.

AB - Three-dimensional (3D) objects with a periodic structure composed of particles differing in composition and/or morphology have attracted a lot of attention due to their high potential for achieving new sets of properties nonexistent in single-phase materials and materials lacking a periodic structure. In this work, we have demonstrated a possibility of synthesizing a periodic heterostructure consisting of layers of nanocrystalline β-bismuth oxide and layers of spherical particles of metallic bismuth in a single step by conducting partial reduction of [Bi6O5(OH)3](NO3)5·3H2O in benzyl alcohol. The synthesis method of micrometer-sized particles of nanocrystalline β-Bi2O3/spherical Bi with a 3D periodic structure is proposed in this work for the first time. The mechanisms governing the interface formation during the synthesis of the β-Bi2O3/spherical Bi alternating-layer structure are discussed. The structural evolution of [Bi6O5(OH)3](NO3)5·3H2O during its partial reduction in benzyl alcohol shows an example of the strong interrelation between the phase composition, morphology and architecture of the reaction products derived from a single-phase precursor. The proposed synthesis method of the β-Bi2O3/spherical Bi alternating-layer 3D materials is easily scalable, shows good reproducibility and is based on simple experimental procedures.

KW - 3D layered structure self-assembly β-bismuth oxide spherical bismuth

KW - NANOPARTICLES

KW - LIQUID CELL

KW - 3D layered structure self-assembly -bismuth oxide spherical bismuth

KW - NANOSTRUCTURES

KW - COLLOIDAL CRYSTALS

KW - LITHOGRAPHY

UR - http://www.scopus.com/inward/record.url?scp=85029585311&partnerID=8YFLogxK

U2 - 10.1002/crat.201700099

DO - 10.1002/crat.201700099

M3 - Article

AN - SCOPUS:85029585311

VL - 52

JO - Crystal Research and Technology

JF - Crystal Research and Technology

SN - 0232-1300

IS - 9

M1 - 1700099

ER -

ID: 9909286