Template-assisted large-scale ordered arrays of ZnO pillars for optical and piezoelectric applications

Hong Jin Fan; Woo Lee; Robert Hauschild; Marin Alexe; Gwenaël Le Rhun; Roland Scholz; Armin Dadgar; Kornelius Nielsch; Heinz Kalt; Alois Krost; Margit Zacharias; Ulrich Gösele

doi:10.1002/smll.200500331

Template-assisted large-scale ordered arrays of ZnO pillars for optical and piezoelectric applications

Hong Jin Fan^*, Woo Lee, Robert Hauschild, Marin Alexe, Gwenaël Le Rhun, Roland Scholz, Armin Dadgar, Kornelius Nielsch, Heinz Kalt, Alois Krost, Margit Zacharias, Ulrich Gösele

^*Corresponding author for this work

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

220 Citations (Scopus)

Abstract

Spatially separated ZnO pillars, typically 300 nm in diameter and 2 uni in height, are fabricated via a template-directed approach that leads to long-range hexagonal order. The templates of Au nanodisk arrays arc obtained by using metal membranes as a lithography mask. The growth of ZnO pillars is performed in a double-tube system through vapor diffusion-deposition. The growth mechanism of the pillars is studied in detail and is proposed to be a combination of vapor-liquid-solid and vapor-solid models. The piezoelectric and optical properties of single pillars are characterized using piezoresponse force microscopy and micro-photoluminescence spectroscopy, respectively. The pillars show strong excitonic emissions up to room temperature, which indicate a relatively low defect density and good crystalline quality. The obtained piezoelectric coefficient d₃₃ is (7.5±0.6) pm V^-1, which is to our knowledge the first reported value for a single nanopillar.

Original language	English
Pages (from-to)	561-568
Number of pages	8
Journal	Small
Volume	2
Issue number	4
DOIs	https://doi.org/10.1002/smll.200500331
Publication status	Published - Apr 2006
Externally published	Yes

ASJC Scopus Subject Areas

Biotechnology
General Chemistry
Biomaterials
General Materials Science
Engineering (miscellaneous)

Keywords

Actuators
Nanowires
Photoluminescence
Piezoelectrics
Template synthesis

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10.1002/smll.200500331

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title = "Template-assisted large-scale ordered arrays of ZnO pillars for optical and piezoelectric applications",

abstract = "Spatially separated ZnO pillars, typically 300 nm in diameter and 2 uni in height, are fabricated via a template-directed approach that leads to long-range hexagonal order. The templates of Au nanodisk arrays arc obtained by using metal membranes as a lithography mask. The growth of ZnO pillars is performed in a double-tube system through vapor diffusion-deposition. The growth mechanism of the pillars is studied in detail and is proposed to be a combination of vapor-liquid-solid and vapor-solid models. The piezoelectric and optical properties of single pillars are characterized using piezoresponse force microscopy and micro-photoluminescence spectroscopy, respectively. The pillars show strong excitonic emissions up to room temperature, which indicate a relatively low defect density and good crystalline quality. The obtained piezoelectric coefficient d33 is (7.5±0.6) pm V-1, which is to our knowledge the first reported value for a single nanopillar.",

keywords = "Actuators, Nanowires, Photoluminescence, Piezoelectrics, Template synthesis",

author = "Fan, {Hong Jin} and Woo Lee and Robert Hauschild and Marin Alexe and Rhun, {Gwena{\"e}l Le} and Roland Scholz and Armin Dadgar and Kornelius Nielsch and Heinz Kalt and Alois Krost and Margit Zacharias and Ulrich G{\"o}sele",

year = "2006",

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doi = "10.1002/smll.200500331",

language = "English",

volume = "2",

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AU - Fan, Hong Jin

AU - Lee, Woo

AU - Hauschild, Robert

AU - Alexe, Marin

AU - Rhun, Gwenaël Le

AU - Scholz, Roland

AU - Dadgar, Armin

AU - Nielsch, Kornelius

AU - Kalt, Heinz

AU - Krost, Alois

AU - Zacharias, Margit

AU - Gösele, Ulrich

PY - 2006/4

Y1 - 2006/4

N2 - Spatially separated ZnO pillars, typically 300 nm in diameter and 2 uni in height, are fabricated via a template-directed approach that leads to long-range hexagonal order. The templates of Au nanodisk arrays arc obtained by using metal membranes as a lithography mask. The growth of ZnO pillars is performed in a double-tube system through vapor diffusion-deposition. The growth mechanism of the pillars is studied in detail and is proposed to be a combination of vapor-liquid-solid and vapor-solid models. The piezoelectric and optical properties of single pillars are characterized using piezoresponse force microscopy and micro-photoluminescence spectroscopy, respectively. The pillars show strong excitonic emissions up to room temperature, which indicate a relatively low defect density and good crystalline quality. The obtained piezoelectric coefficient d33 is (7.5±0.6) pm V-1, which is to our knowledge the first reported value for a single nanopillar.

AB - Spatially separated ZnO pillars, typically 300 nm in diameter and 2 uni in height, are fabricated via a template-directed approach that leads to long-range hexagonal order. The templates of Au nanodisk arrays arc obtained by using metal membranes as a lithography mask. The growth of ZnO pillars is performed in a double-tube system through vapor diffusion-deposition. The growth mechanism of the pillars is studied in detail and is proposed to be a combination of vapor-liquid-solid and vapor-solid models. The piezoelectric and optical properties of single pillars are characterized using piezoresponse force microscopy and micro-photoluminescence spectroscopy, respectively. The pillars show strong excitonic emissions up to room temperature, which indicate a relatively low defect density and good crystalline quality. The obtained piezoelectric coefficient d33 is (7.5±0.6) pm V-1, which is to our knowledge the first reported value for a single nanopillar.

KW - Actuators

KW - Nanowires

KW - Photoluminescence

KW - Piezoelectrics

KW - Template synthesis

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Template-assisted large-scale ordered arrays of ZnO pillars for optical and piezoelectric applications

Abstract

ASJC Scopus Subject Areas

Keywords

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