Zinc oxide crystals with controlled size and morphology

S. E. Guano; A. Debut; P. Fernandez-Morales

doi:10.4172/0974-8369.1000283

Zinc oxide crystals with controlled size and morphology

S. E. Guano, A. Debut, P. Fernandez-Morales

Research Group on Renewable Energy and Mechanical Implementation of SMEs (GIERIMP)

Research output: Contribution to journal › Article › peer-review

Abstract

Zinc Oxide (ZnO) has been synthesized by evaporation, condensation, and oxidation of metallic Zn under atmospheric pressure, the objective of this study is the growth the particles of ZnO and its relationship with the deposition zone. Pieces of Zn were introduced into a quartz tube acting as reactor which is placed inside the tubefurnace at 920-950°C under controlled pressure and heating profile. Carefully monitoring the temperature zones inside the reactor, ZnO crystals were growth. During heating, the oxygen in the surrounding environment reacted with the Zn pieces' surface to form a ZnO capsule with liquid and gaseous Zn inside. When the pressure inside the capsule surpasses the ambient pressure, cracks are formed in the oxide crust and the Zn vapor is released. Zinc in gaseous state oxidizes as it flows through air, and, depending on its trajectory, a variety of crystallites are obtained with size ranging from 20 nm, for the smallest particles, to 5 μm for the tetrapod nanostructures.

Original language	English
Article number	283
Journal	Biology and Medicine
Volume	8
Issue number	3
DOIs	https://doi.org/10.4172/0974-8369.1000283
State	Published - 2016

Bibliographical note

Publisher Copyright:
© 2016 Guano SE, et al.

Keywords

Tetrapod
Thermal oxidizing
Zinc oxide

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10.4172/0974-8369.1000283

Cite this

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title = "Zinc oxide crystals with controlled size and morphology",

abstract = "Zinc Oxide (ZnO) has been synthesized by evaporation, condensation, and oxidation of metallic Zn under atmospheric pressure, the objective of this study is the growth the particles of ZnO and its relationship with the deposition zone. Pieces of Zn were introduced into a quartz tube acting as reactor which is placed inside the tubefurnace at 920-950°C under controlled pressure and heating profile. Carefully monitoring the temperature zones inside the reactor, ZnO crystals were growth. During heating, the oxygen in the surrounding environment reacted with the Zn pieces' surface to form a ZnO capsule with liquid and gaseous Zn inside. When the pressure inside the capsule surpasses the ambient pressure, cracks are formed in the oxide crust and the Zn vapor is released. Zinc in gaseous state oxidizes as it flows through air, and, depending on its trajectory, a variety of crystallites are obtained with size ranging from 20 nm, for the smallest particles, to 5 μm for the tetrapod nanostructures.",

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AU - Guano, S. E.

AU - Debut, A.

AU - Fernandez-Morales, P.

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N2 - Zinc Oxide (ZnO) has been synthesized by evaporation, condensation, and oxidation of metallic Zn under atmospheric pressure, the objective of this study is the growth the particles of ZnO and its relationship with the deposition zone. Pieces of Zn were introduced into a quartz tube acting as reactor which is placed inside the tubefurnace at 920-950°C under controlled pressure and heating profile. Carefully monitoring the temperature zones inside the reactor, ZnO crystals were growth. During heating, the oxygen in the surrounding environment reacted with the Zn pieces' surface to form a ZnO capsule with liquid and gaseous Zn inside. When the pressure inside the capsule surpasses the ambient pressure, cracks are formed in the oxide crust and the Zn vapor is released. Zinc in gaseous state oxidizes as it flows through air, and, depending on its trajectory, a variety of crystallites are obtained with size ranging from 20 nm, for the smallest particles, to 5 μm for the tetrapod nanostructures.

AB - Zinc Oxide (ZnO) has been synthesized by evaporation, condensation, and oxidation of metallic Zn under atmospheric pressure, the objective of this study is the growth the particles of ZnO and its relationship with the deposition zone. Pieces of Zn were introduced into a quartz tube acting as reactor which is placed inside the tubefurnace at 920-950°C under controlled pressure and heating profile. Carefully monitoring the temperature zones inside the reactor, ZnO crystals were growth. During heating, the oxygen in the surrounding environment reacted with the Zn pieces' surface to form a ZnO capsule with liquid and gaseous Zn inside. When the pressure inside the capsule surpasses the ambient pressure, cracks are formed in the oxide crust and the Zn vapor is released. Zinc in gaseous state oxidizes as it flows through air, and, depending on its trajectory, a variety of crystallites are obtained with size ranging from 20 nm, for the smallest particles, to 5 μm for the tetrapod nanostructures.

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KW - Thermal oxidizing

KW - Zinc oxide

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Zinc oxide crystals with controlled size and morphology

Abstract

Bibliographical note

Keywords

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