A simple route to vertical array of quasi-1d zno nanofilms on fto surfaces: 1d-crystal growth of nanoseeds under ammonia-assisted hydrolysis process

A simple method for the synthesis of ZnO nanofilms composed of vertical array of quasi-1D ZnO nanostructures (quasi-NRs) on the surface was demonstrated via a 1D crystal growth of the attached nanoseeds under a rapid hydrolysis process of zinc salts in the presence of ammonia at room temperature. In...

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Main Authors: Umar A.A., Rahman M.Y.A., Taslim R., Salleh M.M., Oyama M.
Other Authors: 9332520900
Format: Article
Published: 2023
Subjects:
XRD
ZnO
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spelling my.uniten.dspace-304092023-12-29T15:47:31Z A simple route to vertical array of quasi-1d zno nanofilms on fto surfaces: 1d-crystal growth of nanoseeds under ammonia-assisted hydrolysis process Umar A.A. Rahman M.Y.A. Taslim R. Salleh M.M. Oyama M. 9332520900 55347217400 36009299200 55613229960 7103070271 Hydrolysis process Nanofilms Seed-mediated method Vertical array Zno quasi-nrs Ammonia Crystal growth Hydrolysis Nanorods Salts Synthesis (chemical) Zinc Zinc compounds Average diameter Growth period High density High quality Nano films Nanoseeds Pure ZnO Room temperature Room-temperature process Seed-mediated method SIMPLE method Vertical array XRD Zinc acetate Zinc complex Zinc salts ZnO ZnO nanostructures Zinc oxide A simple method for the synthesis of ZnO nanofilms composed of vertical array of quasi-1D ZnO nanostructures (quasi-NRs) on the surface was demonstrated via a 1D crystal growth of the attached nanoseeds under a rapid hydrolysis process of zinc salts in the presence of ammonia at room temperature. In a typical procedure, by simply controlling the concentration of zinc acetate and ammonia in the reaction, a high density of vertically oriented nanorod-like morphology could be successfully obtained in a relatively short growth period (approximately 4 to 5 min) and at a room-temperature process. The average diameter and the length of the nanostructures are approximately 30 and 110 nm, respectively. The as-prepared quasi-NRs products were pure ZnO phase in nature without the presence of any zinc complexes as confirmed by the XRD characterisation. Room-temperature optical absorption spectroscopy exhibits the presence of two separate excitonic characters inferring that the as-prepared ZnO quasi-NRs are high-crystallinity properties in nature. The mechanism of growth for the ZnO quasi-NRs will be proposed. Due to their simplicity, the method should become a potential alternative for a rapid and cost-effective preparation of high-quality ZnO quasi-NRs nanofilms for use in photovoltaic or photocatalytics applications. PACS: 81.07.Bc; 81.16.-c; 81.07.Gf. � 2011 Umar et al; licensee Springer. Final 2023-12-29T07:47:31Z 2023-12-29T07:47:31Z 2011 Article 10.1186/1556-276X-6-564 2-s2.0-84856066674 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84856066674&doi=10.1186%2f1556-276X-6-564&partnerID=40&md5=ae539e7fae7b254d88194316bc3a8df0 https://irepository.uniten.edu.my/handle/123456789/30409 6 564 1 12 All Open Access; Gold Open Access; Green Open Access Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Hydrolysis process
Nanofilms
Seed-mediated method
Vertical array
Zno quasi-nrs
Ammonia
Crystal growth
Hydrolysis
Nanorods
Salts
Synthesis (chemical)
Zinc
Zinc compounds
Average diameter
Growth period
High density
High quality
Nano films
Nanoseeds
Pure ZnO
Room temperature
Room-temperature process
Seed-mediated method
SIMPLE method
Vertical array
XRD
Zinc acetate
Zinc complex
Zinc salts
ZnO
ZnO nanostructures
Zinc oxide
spellingShingle Hydrolysis process
Nanofilms
Seed-mediated method
Vertical array
Zno quasi-nrs
Ammonia
Crystal growth
Hydrolysis
Nanorods
Salts
Synthesis (chemical)
Zinc
Zinc compounds
Average diameter
Growth period
High density
High quality
Nano films
Nanoseeds
Pure ZnO
Room temperature
Room-temperature process
Seed-mediated method
SIMPLE method
Vertical array
XRD
Zinc acetate
Zinc complex
Zinc salts
ZnO
ZnO nanostructures
Zinc oxide
Umar A.A.
Rahman M.Y.A.
Taslim R.
Salleh M.M.
Oyama M.
A simple route to vertical array of quasi-1d zno nanofilms on fto surfaces: 1d-crystal growth of nanoseeds under ammonia-assisted hydrolysis process
description A simple method for the synthesis of ZnO nanofilms composed of vertical array of quasi-1D ZnO nanostructures (quasi-NRs) on the surface was demonstrated via a 1D crystal growth of the attached nanoseeds under a rapid hydrolysis process of zinc salts in the presence of ammonia at room temperature. In a typical procedure, by simply controlling the concentration of zinc acetate and ammonia in the reaction, a high density of vertically oriented nanorod-like morphology could be successfully obtained in a relatively short growth period (approximately 4 to 5 min) and at a room-temperature process. The average diameter and the length of the nanostructures are approximately 30 and 110 nm, respectively. The as-prepared quasi-NRs products were pure ZnO phase in nature without the presence of any zinc complexes as confirmed by the XRD characterisation. Room-temperature optical absorption spectroscopy exhibits the presence of two separate excitonic characters inferring that the as-prepared ZnO quasi-NRs are high-crystallinity properties in nature. The mechanism of growth for the ZnO quasi-NRs will be proposed. Due to their simplicity, the method should become a potential alternative for a rapid and cost-effective preparation of high-quality ZnO quasi-NRs nanofilms for use in photovoltaic or photocatalytics applications. PACS: 81.07.Bc; 81.16.-c; 81.07.Gf. � 2011 Umar et al; licensee Springer.
author2 9332520900
author_facet 9332520900
Umar A.A.
Rahman M.Y.A.
Taslim R.
Salleh M.M.
Oyama M.
format Article
author Umar A.A.
Rahman M.Y.A.
Taslim R.
Salleh M.M.
Oyama M.
author_sort Umar A.A.
title A simple route to vertical array of quasi-1d zno nanofilms on fto surfaces: 1d-crystal growth of nanoseeds under ammonia-assisted hydrolysis process
title_short A simple route to vertical array of quasi-1d zno nanofilms on fto surfaces: 1d-crystal growth of nanoseeds under ammonia-assisted hydrolysis process
title_full A simple route to vertical array of quasi-1d zno nanofilms on fto surfaces: 1d-crystal growth of nanoseeds under ammonia-assisted hydrolysis process
title_fullStr A simple route to vertical array of quasi-1d zno nanofilms on fto surfaces: 1d-crystal growth of nanoseeds under ammonia-assisted hydrolysis process
title_full_unstemmed A simple route to vertical array of quasi-1d zno nanofilms on fto surfaces: 1d-crystal growth of nanoseeds under ammonia-assisted hydrolysis process
title_sort simple route to vertical array of quasi-1d zno nanofilms on fto surfaces: 1d-crystal growth of nanoseeds under ammonia-assisted hydrolysis process
publishDate 2023
_version_ 1806428012167561216