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Synthesis of Double-Shelled Hollow Inorganic Nanospheres through Block Copolymer-Metal Coordination and Atomic Layer Deposition
Synthesis of Double-Shelled Hollow Inorganic Nanospheres through Block Copolymer-Metal Coordination and Atomic Layer Deposition
by Yang, Zhiming , Xu, Lei , Jiang, Xizhi , Guan, Qingbao , Liu, Jun , Yan, Nina , Feng, Min
in Atomic layer epitaxy / Block copolymers / Carbon / Coordination / Copolymers / Ethanol / Ferric ions / Ligands / Lithium-ion batteries / Low temperature / Metal oxides / Micelles / Nanospheres / Rechargeable batteries / Room temperature / Self-assembly / Silicon wafers / Solvents / Titanium dioxide
2019
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Synthesis of Double-Shelled Hollow Inorganic Nanospheres through Block Copolymer-Metal Coordination and Atomic Layer Deposition
by Yang, Zhiming , Xu, Lei , Jiang, Xizhi , Guan, Qingbao , Liu, Jun , Yan, Nina , Feng, Min
in Atomic layer epitaxy / Block copolymers / Carbon / Coordination / Copolymers / Ethanol / Ferric ions / Ligands / Lithium-ion batteries / Low temperature / Metal oxides / Micelles / Nanospheres / Rechargeable batteries / Room temperature / Self-assembly / Silicon wafers / Solvents / Titanium dioxide
2019
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Synthesis of Double-Shelled Hollow Inorganic Nanospheres through Block Copolymer-Metal Coordination and Atomic Layer Deposition
Synthesis of Double-Shelled Hollow Inorganic Nanospheres through Block Copolymer-Metal Coordination and Atomic Layer Deposition
by Yang, Zhiming , Xu, Lei , Jiang, Xizhi , Guan, Qingbao , Liu, Jun , Yan, Nina , Feng, Min
in Atomic layer epitaxy / Block copolymers / Carbon / Coordination / Copolymers / Ethanol / Ferric ions / Ligands / Lithium-ion batteries / Low temperature / Metal oxides / Micelles / Nanospheres / Rechargeable batteries / Room temperature / Self-assembly / Silicon wafers / Solvents / Titanium dioxide
2019

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Synthesis of Double-Shelled Hollow Inorganic Nanospheres through Block Copolymer-Metal Coordination and Atomic Layer Deposition
Synthesis of Double-Shelled Hollow Inorganic Nanospheres through Block Copolymer-Metal Coordination and Atomic Layer Deposition
Journal Article

Synthesis of Double-Shelled Hollow Inorganic Nanospheres through Block Copolymer-Metal Coordination and Atomic Layer Deposition

Yang, Zhiming,
Xu, Lei,
Jiang, Xizhi,
Guan, Qingbao,
Liu, Jun,
Yan, Nina,
Feng, Min
2019
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Overview
Double-shelled hollow (DSH) structures with varied inorganic compositions are confirmed to have improved performances in diverse applications, especially in lithium ion battery. However, it is still of great challenge to obtain these complex nanostructures with traditional hard templates and solution-based route. Here we report an innovative pathway for the preparation of the DSH nanospheres based on block copolymer self-assembly, metal–ligand coordination and atomic layer deposition. Polymeric composite micelles derived from amphiphilic block copolymers and ferric ions were prepared with heating-enabled micellization and metal–ligand coordination. The DSH nanospheres with Fe2O3 stands inner and TiO2 outer the structures can be obtained with atomic layer deposition of a thin layer of TiO2 followed with calcination in air. The coordination was carried out at room temperature and the deposition was performed at the low temperature of 80 °C, thus providing a feasible fabrication strategy for DSH structures without destruction of the templates. The cavity and the outer layer of the structures can also be simply tuned with the utilized block copolymers and the deposition cycles. These DSH inorganic nanospheres are expected to find vital applications in battery, catalysis, sensing and drug delivery, etc.
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Publisher
MDPI AG,MDPI
Subject

Atomic layer epitaxy

/ Block copolymers

/ Carbon

/ Coordination

/ Copolymers

/ Ethanol

/ Ferric ions

/ Ligands

/ Lithium-ion batteries

/ Low temperature

/ Metal oxides

/ Micelles

/ Nanospheres

/ Rechargeable batteries

/ Room temperature

/ Self-assembly

/ Silicon wafers

/ Solvents

/ Titanium dioxide

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