Growth and physical properties of ZnO rod arrays that integrally match the geometries of photoresists with hole sizes larger than rods' habit diameters

Bottom-up and top-down methods can be combined to create well-designed two-dimensional rod arrays for use in optoelectronics. Toward this end, the bottom-up material growth should follow the exact input of the top-down surface patterning, for example, the growth morphologies should integrally match...

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Published inJournal of alloys and compounds Vol. 704; pp. 131 - 140
Main Authors Wang, Xin, Tao, Yinglei, Zhao, Haiyan, Fu, Ming, He, Dawei, Wang, Yongsheng
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.05.2017
Elsevier BV
Subjects
Adjuvants
Arrays
Copper oxides
Crystallization
Cuprous oxide
Electrical properties
Heterojunctions
Heterostructures
Hydrothermal
Integrally match
Matching
Optoelectronics
Photoluminescence
Photoresist
Photoresists
Physical properties
Polyethyleneimine
Reaction time
Rods
Seeds
Sodium citrate
Tubes
Zinc oxide
Zinc oxides
Integrally match
Zinc oxide
Cuprous oxide
Hydrothermal
Photoluminescence
Photoresist
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Abstract Bottom-up and top-down methods can be combined to create well-designed two-dimensional rod arrays for use in optoelectronics. Toward this end, the bottom-up material growth should follow the exact input of the top-down surface patterning, for example, the growth morphologies should integrally match to the geometries of the patterning. Through the repeated use of appropriate amounts of sodium citrate and polyethylenimine, ZnO rod arrays, in which each rod integrally matched with restriction holes in the surfaces, were formed even when the diameters of restriction holes were much larger than the original habit diameters of the ZnO rods. The diameters and lengths of the ZnO rods were varied by adjusting the diameters of photoresist holes, the concentrations of precursors in solution, and the reaction time. This method was successfully extended the diameter of integrally matching growth of ZnO rods to micrometer scale. The effects of the restriction diameters, the concentration of adjuvants, and the crystallinity of the seeds on integrally matching growth of ZnO rods are discussed. The photoluminescence spectra and crystallinities of the ZnO rods produced in different environments were characterized, revealing that a smaller photoresist aperture improved crystallization quality. The photoluminescence spectra of ZnO rods with different growth times and adjuvant concentrations were also explored. Fibrous ZnO/Cu2O heterostructures were successfully synthesized via the growth of ZnO rods. The electrical properties of ZnO/Cu2O and ZnO rods/Si heterojunctions were investigated, and the crystallinities of the ZnO rods were shown to change based on the different synthesis conditions used. This method for the integrally matching growth of ZnO using photoresist patterns was also generalized to ZnO tubes and rings, which individually match to single restriction hole. •ZnO rods with individual geometry in micrometer scale were formed using photoresist.•Each rod integrally matched with photoresist hole on nonepitaxial substrates.•The crystalline quality of ZnO rods by photoresist was analyzed by PL spectra.•Cu2O/ZnO heterojunctions based on ZnO rods were formed and characterized.•The influence factors on integrally matching growth of ZnO rods were demonstrated.
AbstractList Bottom-up and top-down methods can be combined to create well-designed two-dimensional rod arrays for use in optoelectronics. Toward this end, the bottom-up material growth should follow the exact input of the top-down surface patterning, for example, the growth morphologies should integrally match to the geometries of the patterning. Through the repeated use of appropriate amounts of sodium citrate and polyethylenimine, ZnO rod arrays, in which each rod integrally matched with restriction holes in the surfaces, were formed even when the diameters of restriction holes were much larger than the original habit diameters of the ZnO rods. The diameters and lengths of the ZnO rods were varied by adjusting the diameters of photoresist holes, the concentrations of precursors in solution, and the reaction time. This method was successfully extended the diameter of integrally matching growth of ZnO rods to micrometer scale. The effects of the restriction diameters, the concentration of adjuvants, and the crystallinity of the seeds on integrally matching growth of ZnO rods are discussed. The photoluminescence spectra and crystallinities of the ZnO rods produced in different environments were characterized, revealing that a smaller photoresist aperture improved crystallization quality. The photoluminescence spectra of ZnO rods with different growth times and adjuvant concentrations were also explored. Fibrous ZnO/Cu2O heterostructures were successfully synthesized via the growth of ZnO rods. The electrical properties of ZnO/Cu2O and ZnO rods/Si heterojunctions were investigated, and the crystallinities of the ZnO rods were shown to change based on the different synthesis conditions used. This method for the integrally matching growth of ZnO using photoresist patterns was also generalized to ZnO tubes and rings, which individually match to single restriction hole.
Bottom-up and top-down methods can be combined to create well-designed two-dimensional rod arrays for use in optoelectronics. Toward this end, the bottom-up material growth should follow the exact input of the top-down surface patterning, for example, the growth morphologies should integrally match to the geometries of the patterning. Through the repeated use of appropriate amounts of sodium citrate and polyethylenimine, ZnO rod arrays, in which each rod integrally matched with restriction holes in the surfaces, were formed even when the diameters of restriction holes were much larger than the original habit diameters of the ZnO rods. The diameters and lengths of the ZnO rods were varied by adjusting the diameters of photoresist holes, the concentrations of precursors in solution, and the reaction time. This method was successfully extended the diameter of integrally matching growth of ZnO rods to micrometer scale. The effects of the restriction diameters, the concentration of adjuvants, and the crystallinity of the seeds on integrally matching growth of ZnO rods are discussed. The photoluminescence spectra and crystallinities of the ZnO rods produced in different environments were characterized, revealing that a smaller photoresist aperture improved crystallization quality. The photoluminescence spectra of ZnO rods with different growth times and adjuvant concentrations were also explored. Fibrous ZnO/Cu2O heterostructures were successfully synthesized via the growth of ZnO rods. The electrical properties of ZnO/Cu2O and ZnO rods/Si heterojunctions were investigated, and the crystallinities of the ZnO rods were shown to change based on the different synthesis conditions used. This method for the integrally matching growth of ZnO using photoresist patterns was also generalized to ZnO tubes and rings, which individually match to single restriction hole. •ZnO rods with individual geometry in micrometer scale were formed using photoresist.•Each rod integrally matched with photoresist hole on nonepitaxial substrates.•The crystalline quality of ZnO rods by photoresist was analyzed by PL spectra.•Cu2O/ZnO heterojunctions based on ZnO rods were formed and characterized.•The influence factors on integrally matching growth of ZnO rods were demonstrated.
Author Fu, Ming
Tao, Yinglei
He, Dawei
Wang, Yongsheng
Zhao, Haiyan
Wang, Xin
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Zinc oxide
Cuprous oxide
Hydrothermal
Photoluminescence
Photoresist
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Snippet Bottom-up and top-down methods can be combined to create well-designed two-dimensional rod arrays for use in optoelectronics. Toward this end, the bottom-up...
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SubjectTerms Adjuvants
Arrays
Copper oxides
Crystallization
Cuprous oxide
Electrical properties
Heterojunctions
Heterostructures
Hydrothermal
Integrally match
Matching
Optoelectronics
Photoluminescence
Photoresist
Photoresists
Physical properties
Polyethyleneimine
Reaction time
Rods
Seeds
Sodium citrate
Tubes
Zinc oxide
Zinc oxides
Title Growth and physical properties of ZnO rod arrays that integrally match the geometries of photoresists with hole sizes larger than rods' habit diameters
URI https://dx.doi.org/10.1016/j.jallcom.2017.01.166
https://www.proquest.com/docview/1934949031/abstract/
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