A Study on the Wide Frequency Range Electrical Variables in the Al/Coumarin–PVA/p-Si Diodes at Room Temperature

Selçuk Demirezen

doi:10.54287/gujsa.1202745

Research Article

A Study on the Wide Frequency Range Electrical Variables in the Al/Coumarin–PVA/p-Si Diodes at Room Temperature

Year 2023, , 53 - 61, 28.03.2023

Selçuk Demirezen

https://doi.org/10.54287/gujsa.1202745

Cited By: 1

Abstract

Coumarin-PVA is deposited onto p-Si wafers using the spin coating technique. I examined the fundamental electrical variables of the Al/CoumarinPVA/p-Si type Schottky barrier diodes (SBDs), by utilizing capacitance/voltage(C-V) and conductance/voltage (G-V) measurements at different frequencies varied from 10kHz to1MHz. I have thoroughly explored how the CoumarinPVA interlayer, series resistance (Rs) and surface states (Nss) affect the electrical properties of SBDs. In order to remove Rs's influence on the observed C and G values, I corrected them. The observed high values of C/G measured at low frequencies result from the existence of interfacial states. There is evidence that while NA decreases exponentially with increasing frequency, B increases exponentially. A particular distribution of Nss density, polarization processes, and the existence of an interfacial layer can all contribute to explaining these characteristic features of them. According to experimental findings, I conclude that the interfacial polymer CoumarinPVA layer as well as the Nss and Rs also have a significant impact on the C/G-V quantities of SBDs.

Keywords

Coumarin-PVA Interlayer, Surface States, Frequency and Voltage Dependency, Series Resistance

Supporting Institution

Amasya University

Project Number

FMB-BAP 17-0292

References

Ashery, A., Gad, S. A., & Turky, G. M. (2021). Analysis of Electrical and Capacitance–Voltage of PVA/nSi. Journal of Electronic Materials, 50(6), 3498-3516. doi:10.1007/s11664-021-08867-y
Card, H. C., & Rhoderick, E. H. (1971). Studies of tunnel MOS diodes I. Interface effects in silicon Schottky diodes. Journal of Physics D: Applied Physics, 4(10), 1589-1601. doi:10.1088/0022-3727/4/10/319
Cetinkaya, H. G., Cicek, O., Altindal, S., Badali, Y., & Demirezen, S. (2022). Vertical CdTe:PVP/ p -Si-Based Temperature Sensor by Using Aluminum Anode Schottky Contact. IEEE Sensors Journal, 22(23), 22391-22397. doi:10.1109/JSEN.2022.3212867
Çokduygulular, E., Çetinkaya, Ç., Yalçın, Y., & Kınacı, B. (2020). A comprehensive study on Cu-doped ZnO (CZO) interlayered MOS structure. Journal of Materials Science: Materials in Electronics, 31(16), 13646-13656. doi:10.1007/s10854-020-03922-6
Demirezen, S., Çetinkaya, H. G., & Altındal, Ş. (2022). Doping rate, Interface states and Polarization Effects on Dielectric Properties, Electric Modulus, and AC Conductivity in PCBM/NiO:ZnO/p-Si Structures in Wide Frequency Range. Silicon, 14(14), 8517-8527. doi:10.1007/s12633-021-01640-0
Demirezen, S., & Altındal Yerişkin, S. (2020). A detailed comparative study on electrical and photovoltaic characteristics of Al/p-Si photodiodes with coumarin-doped PVA interfacial layer: the effect of doping concentration. Polymer Bulletin, 77(1), 49-71. doi:10.1007/s00289-019-02704-3
Ghouili, A., Dusek, M., Petricek, V., Ayed, T. B., & Hassen, R. B. (2014). Synthesis, crystal structure and spectral characteristics of highly fluorescent chalcone-based coumarin in solution and in polymer matrix. Journal of Physics and Chemistry of Solids, 75(2), 188-193. doi:10.1016/j.jpcs.2013.09.011
Hill, W. A., & Coleman, C. C. (1980). A single-frequency approximation for interface-state density determination. Solid-State Electronics, 23(9), 987-993. doi:10.1016/0038-1101(80)90064-7
Liu, X., Cole, J. M., Waddell, P. G., Lin, T.-C., Radia, J., & Zeidler, A. (2012). Molecular Origins of Optoelectronic Properties in Coumarin Dyes: Toward Designer Solar Cell and Laser Applications. The Journal of Physical Chemistry A, 116(1), 727-737. doi:10.1021/jp209925y
Nicollian, E. H., & Brews, J. R. (1982). Metal oxide semiconductor (MOS) physics and technology. Wiley.
Sharma, M., & Tripathi, S. K. (2013). Analysis of interface states and series resistance for Al/PVA: N-CdS nanocomposite metal-semiconductor and metal-insulator-semiconductor diode structures. Applied Physics A: Materials Science & Processing, 113(2), 491-499. doi:10.1007/s00339-013-7552-3
Sze, S. M. (1981). Physics of Semiconductor Devices (2nd Ed.). Wiley.
Wang, Z.-S., Hara, K., Dan-oh, Y., Kasada, C., Shinpo, A., Suga, S., Arakawa, H., & Sugihara, H. (2005). Photophysical and (Photo)electrochemical Properties of a Coumarin Dye. The Journal of Physical Chemistry B, 109(9), 3907-3914. doi:10.1021/jp044851v

Year 2023, , 53 - 61, 28.03.2023

Selçuk Demirezen

https://doi.org/10.54287/gujsa.1202745

Cited By: 1

Abstract

Keywords

Coumarin-PVA interlayer Surface states Frequency and voltage dependency Series resistance, Coumarin-PVA interlayer, Surface states, Frequency and voltage dependency, Series resistance

Project Number

FMB-BAP 17-0292

References

Ashery, A., Gad, S. A., & Turky, G. M. (2021). Analysis of Electrical and Capacitance–Voltage of PVA/nSi. Journal of Electronic Materials, 50(6), 3498-3516. doi:10.1007/s11664-021-08867-y
Card, H. C., & Rhoderick, E. H. (1971). Studies of tunnel MOS diodes I. Interface effects in silicon Schottky diodes. Journal of Physics D: Applied Physics, 4(10), 1589-1601. doi:10.1088/0022-3727/4/10/319
Cetinkaya, H. G., Cicek, O., Altindal, S., Badali, Y., & Demirezen, S. (2022). Vertical CdTe:PVP/ p -Si-Based Temperature Sensor by Using Aluminum Anode Schottky Contact. IEEE Sensors Journal, 22(23), 22391-22397. doi:10.1109/JSEN.2022.3212867
Çokduygulular, E., Çetinkaya, Ç., Yalçın, Y., & Kınacı, B. (2020). A comprehensive study on Cu-doped ZnO (CZO) interlayered MOS structure. Journal of Materials Science: Materials in Electronics, 31(16), 13646-13656. doi:10.1007/s10854-020-03922-6
Demirezen, S., Çetinkaya, H. G., & Altındal, Ş. (2022). Doping rate, Interface states and Polarization Effects on Dielectric Properties, Electric Modulus, and AC Conductivity in PCBM/NiO:ZnO/p-Si Structures in Wide Frequency Range. Silicon, 14(14), 8517-8527. doi:10.1007/s12633-021-01640-0
Demirezen, S., & Altındal Yerişkin, S. (2020). A detailed comparative study on electrical and photovoltaic characteristics of Al/p-Si photodiodes with coumarin-doped PVA interfacial layer: the effect of doping concentration. Polymer Bulletin, 77(1), 49-71. doi:10.1007/s00289-019-02704-3
Ghouili, A., Dusek, M., Petricek, V., Ayed, T. B., & Hassen, R. B. (2014). Synthesis, crystal structure and spectral characteristics of highly fluorescent chalcone-based coumarin in solution and in polymer matrix. Journal of Physics and Chemistry of Solids, 75(2), 188-193. doi:10.1016/j.jpcs.2013.09.011
Hill, W. A., & Coleman, C. C. (1980). A single-frequency approximation for interface-state density determination. Solid-State Electronics, 23(9), 987-993. doi:10.1016/0038-1101(80)90064-7
Liu, X., Cole, J. M., Waddell, P. G., Lin, T.-C., Radia, J., & Zeidler, A. (2012). Molecular Origins of Optoelectronic Properties in Coumarin Dyes: Toward Designer Solar Cell and Laser Applications. The Journal of Physical Chemistry A, 116(1), 727-737. doi:10.1021/jp209925y
Nicollian, E. H., & Brews, J. R. (1982). Metal oxide semiconductor (MOS) physics and technology. Wiley.
Sharma, M., & Tripathi, S. K. (2013). Analysis of interface states and series resistance for Al/PVA: N-CdS nanocomposite metal-semiconductor and metal-insulator-semiconductor diode structures. Applied Physics A: Materials Science & Processing, 113(2), 491-499. doi:10.1007/s00339-013-7552-3
Sze, S. M. (1981). Physics of Semiconductor Devices (2nd Ed.). Wiley.
Wang, Z.-S., Hara, K., Dan-oh, Y., Kasada, C., Shinpo, A., Suga, S., Arakawa, H., & Sugihara, H. (2005). Photophysical and (Photo)electrochemical Properties of a Coumarin Dye. The Journal of Physical Chemistry B, 109(9), 3907-3914. doi:10.1021/jp044851v

There are 13 citations in total.

Details

Primary Language	English
Journal Section	Physics
Authors	Selçuk Demirezen 0000-0001-7462-0251
Project Number	FMB-BAP 17-0292
Publication Date	March 28, 2023
Submission Date	November 11, 2022
Published in Issue	Year 2023

Cite

APA	Demirezen, S. (2023). A Study on the Wide Frequency Range Electrical Variables in the Al/Coumarin–PVA/p-Si Diodes at Room Temperature. Gazi University Journal of Science Part A: Engineering and Innovation, 10(1), 53-61. https://doi.org/10.54287/gujsa.1202745

Cited By

ZnPc based multifunctional devices designed as fast capacitors, rectifiers, infrared detectors and microwave resonators adequate for 6 G technology applications

Gazi University Journal of Science Part A: Engineering and Innovation

A Study on the Wide Frequency Range Electrical Variables in the Al/Coumarin–PVA/p-Si Diodes at Room Temperature

Abstract

Keywords

Supporting Institution

Project Number

References

Abstract

Keywords

Project Number

References

Details

Cite

Cited By

ZnPc based multifunctional devices designed as fast capacitors, rectifiers, infrared detectors and microwave resonators adequate for 6 G technology applications

Physica Scripta

https://doi.org/10.1088/1402-4896/ad36f8