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A template-free, sonochemical route to porous ZnO nano-disks
Sayan Bhattacharyya, A. Gedanken
Department of Chemistry
Bar-Ilan University
Research output
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Contribution to journal
›
Article
›
peer-review
126
Scopus citations
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Keyphrases
Argon
100%
Mesoporous Structure
100%
Template-free
100%
Nanodiscs
100%
Sonochemical Route
100%
Porous ZnO
100%
ZnO Nano
100%
Microstructure
50%
High Temperature
50%
Mesopore
50%
Pore Size
50%
Small Angle
50%
Sonochemistry
50%
Pore Formation
50%
XRD Study
50%
Hexagonal Structure
50%
Porous Structure
50%
Micropore
50%
Possible Mechanisms
50%
Oxygen Vacancy
50%
Bubble Collapse
50%
Photoluminescence Spectra
50%
Zinc Oxide Nanoparticles (ZnO NPs)
50%
ZnO Nanocrystals
50%
Zinc Acetate
50%
Under Air
50%
BET Surface Area
50%
Sonohydrolysis
50%
Microporous Structure
50%
Collapse Temperature
50%
Band-edge Exciton
50%
Excitonic Transition
50%
Excitonic Absorption
50%
Argon Gas
50%
Specific Heat Ratio
50%
Aqueous Route
50%
Porous Framework
50%
Surface Deep Trap
50%
Engineering
Nanoparticle
100%
Bubble Collapse
100%
Porous Structure
100%
Deep Level
100%
Micropore
100%
Band Edge
100%
Microporosity
100%
Sonication
100%
Oxygen Vacancy
100%
Chemical Engineering
Mesopore
100%
Nanoparticle
100%
Specific Heat
100%
Material Science
ZnO
100%
Zinc
20%
Nanocrystalline Material
20%
X-Ray Diffraction
20%
Pore Size
20%
Photoluminescence
20%
Oxygen Vacancy
20%
Nanoparticle
20%