ZnO, Cu-doped ZnO, Al-doped ZnO and Cu-Al doped ZnO thin films: Advanced micro-morphology, crystalline structures and optical properties

•ZnO, mono- and co-doped ZnO with Cu and Al dopants fabricated by RF sputtering.•Advanced fractal features extracted from AFM images.•Advanced crystalline structures investigated by XRD spectra.•The CAZO thin film behaves like a good TCO in the visible area.•PL spectra investigated density of free c...

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Published inResults in physics Vol. 44; p. 106209
Main Authors Dejam, Laya, Kulesza, Slawomir, Sabbaghzadeh, Jamshid, Ghaderi, Atefeh, Solaymani, Shahram, Țălu, Ștefan, Bramowicz, Miroslaw, Amouamouha, Mitra, shayegan, Amir hossein Salehi, Sari, Amir hossein
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2023
Elsevier
Subjects
Band gap energy
Doped and co-doped ZnO
Surface texture
ZnO thin films
ZnO thin films
Band gap energy
Surface texture
Doped and co-doped ZnO
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Abstract •ZnO, mono- and co-doped ZnO with Cu and Al dopants fabricated by RF sputtering.•Advanced fractal features extracted from AFM images.•Advanced crystalline structures investigated by XRD spectra.•The CAZO thin film behaves like a good TCO in the visible area.•PL spectra investigated density of free carriers, effect of impurity on substituted levels, and conductivity. The thin film coatings composed of: undoped ZnO film, ZnO doped with Al, ZnO doped with Cu, and ZnO simultaneously doped with Al and Cu (co-doping) were separately deposited on quartz substrates using RF sputtering method with different targets. The advanced fractal features, crystalline structure and optical properties of sputtered samples were investigated by atomic force microscopy (AFM), X‐ray diffraction (XRD) and UV–vis spectroscopy. Microstructural studies revealed homogeneously granular structure of ZnO layer and axially oriented granular structure of AZO thin film. The transmission spectra of undoped, mono-doped and co-doped ZnO thin films were measured revealing relatively large transmittance of more than 80 % for un-doped and co-doped samples and less than that value for mono-doped thin films in both visible and infrared regions. CAZO thin film was found the most transparent thin film in the visible area being a prerequisite for good TCO. Analysis of absorption coefficients demonstrated that excitonic effects are invisible in mono-doped and co-doped samples. Also, PL spectra show that in these samples there are very high densities of free carriers and presence of impurities, which is important for conductivity of thin films as well as their optical applications. The optical band gap of ZnO thin films decreases by Cu doping from 3.12 eV to 3.09 eV and increases by Al doping to 4.30 eV, but remains exactly between those values in terms of co-doped sample (3.75 eV).
AbstractList The thin film coatings composed of: undoped ZnO film, ZnO doped with Al, ZnO doped with Cu, and ZnO simultaneously doped with Al and Cu (co-doping) were separately deposited on quartz substrates using RF sputtering method with different targets. The advanced fractal features, crystalline structure and optical properties of sputtered samples were investigated by atomic force microscopy (AFM), X‐ray diffraction (XRD) and UV–vis spectroscopy. Microstructural studies revealed homogeneously granular structure of ZnO layer and axially oriented granular structure of AZO thin film.The transmission spectra of undoped, mono-doped and co-doped ZnO thin films were measured revealing relatively large transmittance of more than 80 % for un-doped and co-doped samples and less than that value for mono-doped thin films in both visible and infrared regions. CAZO thin film was found the most transparent thin film in the visible area being a prerequisite for good TCO. Analysis of absorption coefficients demonstrated that excitonic effects are invisible in mono-doped and co-doped samples. Also, PL spectra show that in these samples there are very high densities of free carriers and presence of impurities, which is important for conductivity of thin films as well as their optical applications. The optical band gap of ZnO thin films decreases by Cu doping from 3.12 eV to 3.09 eV and increases by Al doping to 4.30 eV, but remains exactly between those values in terms of co-doped sample (3.75 eV).
•ZnO, mono- and co-doped ZnO with Cu and Al dopants fabricated by RF sputtering.•Advanced fractal features extracted from AFM images.•Advanced crystalline structures investigated by XRD spectra.•The CAZO thin film behaves like a good TCO in the visible area.•PL spectra investigated density of free carriers, effect of impurity on substituted levels, and conductivity. The thin film coatings composed of: undoped ZnO film, ZnO doped with Al, ZnO doped with Cu, and ZnO simultaneously doped with Al and Cu (co-doping) were separately deposited on quartz substrates using RF sputtering method with different targets. The advanced fractal features, crystalline structure and optical properties of sputtered samples were investigated by atomic force microscopy (AFM), X‐ray diffraction (XRD) and UV–vis spectroscopy. Microstructural studies revealed homogeneously granular structure of ZnO layer and axially oriented granular structure of AZO thin film. The transmission spectra of undoped, mono-doped and co-doped ZnO thin films were measured revealing relatively large transmittance of more than 80 % for un-doped and co-doped samples and less than that value for mono-doped thin films in both visible and infrared regions. CAZO thin film was found the most transparent thin film in the visible area being a prerequisite for good TCO. Analysis of absorption coefficients demonstrated that excitonic effects are invisible in mono-doped and co-doped samples. Also, PL spectra show that in these samples there are very high densities of free carriers and presence of impurities, which is important for conductivity of thin films as well as their optical applications. The optical band gap of ZnO thin films decreases by Cu doping from 3.12 eV to 3.09 eV and increases by Al doping to 4.30 eV, but remains exactly between those values in terms of co-doped sample (3.75 eV).
ArticleNumber 106209
Author Dejam, Laya
Kulesza, Slawomir
Sari, Amir hossein
Ghaderi, Atefeh
shayegan, Amir hossein Salehi
Solaymani, Shahram
Țălu, Ștefan
Sabbaghzadeh, Jamshid
Amouamouha, Mitra
Bramowicz, Miroslaw
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  givenname: Miroslaw
  surname: Bramowicz
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– sequence: 10
  givenname: Amir hossein
  surname: Sari
  fullname: Sari, Amir hossein
  organization: Quantum Technologies Research Center (QTRC), Science and Research Branch, Islamic Azad University, Tehran, Iran
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Keywords ZnO thin films
Band gap energy
Surface texture
Doped and co-doped ZnO
Language English
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Snippet •ZnO, mono- and co-doped ZnO with Cu and Al dopants fabricated by RF sputtering.•Advanced fractal features extracted from AFM images.•Advanced crystalline...
The thin film coatings composed of: undoped ZnO film, ZnO doped with Al, ZnO doped with Cu, and ZnO simultaneously doped with Al and Cu (co-doping) were...
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StartPage 106209
SubjectTerms Band gap energy
Doped and co-doped ZnO
Surface texture
ZnO thin films
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Title ZnO, Cu-doped ZnO, Al-doped ZnO and Cu-Al doped ZnO thin films: Advanced micro-morphology, crystalline structures and optical properties
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