Fabrication, structural and electrical characterization of Au/ (CuSe-polyvinyl alcohol)/n-Si (MPS) Schottky barrier structures

The copper selenide (CuSe) nanostructures with different pH values are prepared by an ultrasound-assisted technique. The spectroscopic, morphological and structural characteristics of prepared nanomaterials were investigated via different methods. The XRD patterns depicted that the samples have crys...

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Published inPhysica. B, Condensed matter Vol. 561; pp. 1 - 8
Main Authors Mirzanezhad-Asl, R., Phirouznia, A., Altındal, Ş., Badali, Y., Azizian-Kalandaragh, Y.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 15.05.2019
Elsevier BV
Subjects
Au/(CuSe-PVA)/n-Si structures
Capacitance
Chemical compounds
Copper
Copper selenides
Crystal structure
Depletion
Diffuse reflectance spectroscopy
Electric potential
Electric properties
Electrical characteristics and surface states
Electrical properties
Fourier transforms
Frequency ranges
Functional groups
Infrared spectroscopy
Morphology
Nanomaterials
Nanostructure
Nanostructured materials
Nanostructures
Parameters
pH variation
Polyvinyl alcohol
Resistance
Schottky diodes
Spatial distribution
Structural analysis
Ultrasonic testing
Ultrasound
Ultrasound-assisted technique
Au/(CuSe-PVA)/n-Si structures
Ultrasound-assisted technique
Nanostructures
pH variation
Electrical characteristics and surface states
Online AccessGet full text
ISSN0921-4526
1873-2135
DOI10.1016/j.physb.2019.02.046

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Abstract The copper selenide (CuSe) nanostructures with different pH values are prepared by an ultrasound-assisted technique. The spectroscopic, morphological and structural characteristics of prepared nanomaterials were investigated via different methods. The XRD patterns depicted that the samples have crystalline structures. HRTEM images show the nanostructures size and it also showed that the morphology changed with changing pH value. FT-IR Spectroscopy confirmed the formation of CuSe and evaluates the changes induced by pH variation and in the energy variation between functional groups. Diffuse reflectance spectroscopy (DRS) results demonstrate the absorption regions of CuSe nanostructures are 300–400 nm. Some electrical parameters of the manufactured Au/(CuSe-PVA)/n-Si Schottky barrier diodes (SBDs) were obtained from the impedance measurements (capacitance/conductance-voltage) in the frequency range between 10 kHz and 1 MHz. The amounts of capacitance (C) and conductance (G/ω) were found as are strongly frequency and voltage dependent. While the values of depletion layer width (Wd) and barrier height (ΦB (C-V)) increase with increasing frequency, the concentration of donor atoms (ND) decreases. Both the voltage-dependent profile of surface states (Nss) and series resistance (Rs) were measured and estimated using the low-high frequency capacitance and Nicollian-Brews methods, respectively. These results showed a distinctive peak in the depletion region because of the spatial distribution of the Nss between (CuSe-PVA) and n-Si in the band-gap of Si. Obtained results indicated that the Nss, Rs, and interfacial (CuSe-PVA) layer are significant parameters for the electrical properties. •The copper selenide (CuSe) nanostructures with different pH values synthesized by ultrasound-assisted method.•The morphology and optical characteristics of the prepared CuSe nanostructures have been fully characterized.•CuSe-Polymer nanostructured material have been prepared and utilized for SBD structure as an interfacial layer.•The electric parameters of the fabricated SBD structure have been characterized in the frequency range of 10 kHz-1MHz.
AbstractList The copper selenide (CuSe) nanostructures with different pH values are prepared by an ultrasound-assisted technique. The spectroscopic, morphological and structural characteristics of prepared nanomaterials were investigated via different methods. The XRD patterns depicted that the samples have crystalline structures. HRTEM images show the nanostructures size and it also showed that the morphology changed with changing pH value. FT-IR Spectroscopy confirmed the formation of CuSe and evaluates the changes induced by pH variation and in the energy variation between functional groups. Diffuse reflectance spectroscopy (DRS) results demonstrate the absorption regions of CuSe nanostructures are 300–400 nm. Some electrical parameters of the manufactured Au/(CuSe-PVA)/n-Si Schottky barrier diodes (SBDs) were obtained from the impedance measurements (capacitance/conductance-voltage) in the frequency range between 10 kHz and 1 MHz. The amounts of capacitance (C) and conductance (G/ω) were found as are strongly frequency and voltage dependent. While the values of depletion layer width (Wd) and barrier height (ΦB (C-V)) increase with increasing frequency, the concentration of donor atoms (ND) decreases. Both the voltage-dependent profile of surface states (Nss) and series resistance (Rs) were measured and estimated using the low-high frequency capacitance and Nicollian-Brews methods, respectively. These results showed a distinctive peak in the depletion region because of the spatial distribution of the Nss between (CuSe-PVA) and n-Si in the band-gap of Si. Obtained results indicated that the Nss, Rs, and interfacial (CuSe-PVA) layer are significant parameters for the electrical properties.
The copper selenide (CuSe) nanostructures with different pH values are prepared by an ultrasound-assisted technique. The spectroscopic, morphological and structural characteristics of prepared nanomaterials were investigated via different methods. The XRD patterns depicted that the samples have crystalline structures. HRTEM images show the nanostructures size and it also showed that the morphology changed with changing pH value. FT-IR Spectroscopy confirmed the formation of CuSe and evaluates the changes induced by pH variation and in the energy variation between functional groups. Diffuse reflectance spectroscopy (DRS) results demonstrate the absorption regions of CuSe nanostructures are 300–400 nm. Some electrical parameters of the manufactured Au/(CuSe-PVA)/n-Si Schottky barrier diodes (SBDs) were obtained from the impedance measurements (capacitance/conductance-voltage) in the frequency range between 10 kHz and 1 MHz. The amounts of capacitance (C) and conductance (G/ω) were found as are strongly frequency and voltage dependent. While the values of depletion layer width (Wd) and barrier height (ΦB (C-V)) increase with increasing frequency, the concentration of donor atoms (ND) decreases. Both the voltage-dependent profile of surface states (Nss) and series resistance (Rs) were measured and estimated using the low-high frequency capacitance and Nicollian-Brews methods, respectively. These results showed a distinctive peak in the depletion region because of the spatial distribution of the Nss between (CuSe-PVA) and n-Si in the band-gap of Si. Obtained results indicated that the Nss, Rs, and interfacial (CuSe-PVA) layer are significant parameters for the electrical properties. •The copper selenide (CuSe) nanostructures with different pH values synthesized by ultrasound-assisted method.•The morphology and optical characteristics of the prepared CuSe nanostructures have been fully characterized.•CuSe-Polymer nanostructured material have been prepared and utilized for SBD structure as an interfacial layer.•The electric parameters of the fabricated SBD structure have been characterized in the frequency range of 10 kHz-1MHz.
Author Azizian-Kalandaragh, Y.
Badali, Y.
Phirouznia, A.
Mirzanezhad-Asl, R.
Altındal, Ş.
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Keywords Au/(CuSe-PVA)/n-Si structures
Ultrasound-assisted technique
Nanostructures
pH variation
Electrical characteristics and surface states
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Snippet The copper selenide (CuSe) nanostructures with different pH values are prepared by an ultrasound-assisted technique. The spectroscopic, morphological and...
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SubjectTerms Au/(CuSe-PVA)/n-Si structures
Capacitance
Chemical compounds
Copper
Copper selenides
Crystal structure
Depletion
Diffuse reflectance spectroscopy
Electric potential
Electric properties
Electrical characteristics and surface states
Electrical properties
Fourier transforms
Frequency ranges
Functional groups
Infrared spectroscopy
Morphology
Nanomaterials
Nanostructure
Nanostructured materials
Nanostructures
Parameters
pH variation
Polyvinyl alcohol
Resistance
Schottky diodes
Spatial distribution
Structural analysis
Ultrasonic testing
Ultrasound
Ultrasound-assisted technique
Title Fabrication, structural and electrical characterization of Au/ (CuSe-polyvinyl alcohol)/n-Si (MPS) Schottky barrier structures
URI https://dx.doi.org/10.1016/j.physb.2019.02.046
https://www.proquest.com/docview/2227837021
Volume 561
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