Transparent p-n Heterojunction Thin Film Diodes

M. K. Jayaraj; A. D. Draeseke; J. Tate; R. L. Hoffman; J. F. Wager

doi:10.1557/PROC-666-F4.1

Abstract

Transparent p-n heterojunction diodes are fabricated using p-type CuYO2:Ca and n-type ZnO:Al thin films on a glass substrate coated with indium-tin oxide (ITO). The contact between the n-ZnO:Al / p-CuYO2:Ca heterojunction is found to be rectifying, while the ITO / ZnO:Al contact is ohmic. The typical ratio of forward to reverse current is 15 in the range -3 to 3V. The diode current-voltage characteristics are dominated by the flow of space charge limited current, which is ascribed to the existence of an insulating ZnO interfacial layer. The diode structure has a total thickness of 0.85 μm and an optical transmission of 40%-50% in the visible region.

References

REFERENCES

1. Kawazoe, H., Yasukawa, M., Hyodo, H., Kurita, M., Yanagi, H. and Hosono, H., Nature 389, 939 (1997).Google Scholar

2. Duan, N., Sleight, A. W., Jayaraj, M. K. and Tate, J., Appl. Phys. Lett. 77, 1325 (2000).Google Scholar

3. Jayaraj, M. K., Draeseke, A., Tate, J., Duan, N., and Sleight, A. W., Proceedings of the MRS Workshop on Transparent Conducting Oxides, Denver, CO, June 2000; M. K. Jayaraj, A. D. Draeseke, J. Tate, and A. W. Sleight, submitted to Thin Solid Films (2001).Google Scholar

4. Ueda, K., Hase, T., Yanagi, H., Kawazoe, H., Hosono, H., Ohta, H., Orita, M., and Hirano, M., Appl. Phys. Lett.. 89, 1790 (2001).Google Scholar

5. Nagarajan, R., Draeseke, A. D., Sleight, A. W., and Tate, J., (J. Appl. Phys., 2001, in press).Google Scholar

6. Kudo, A., Yanagi, H., Ueda, K., Hosono, H., Kawazoe, H., and Yano, Y., Appl. Phys. Lett.. 75, 2851 (1999).Google Scholar

7. Ohta, H., Kawamura, K., Orita, M., Hirano, M., Sarukura, N. and Hosono, H., Appl. Phys. Lett. 77, 475 (2000).Google Scholar

8. Sato, H., Minami, T., Takata, S. and Yamada, T., Thin Solid Films 236, 27 (1993).Google Scholar

9. Aoki, T., Hatanaka, Y., and look, D. C., Appl. Phys. Lett. 70, 3257 (2000); Y. R. Ryu, W. J. Kim, and H. W. White, Jour. Crystal Growth 219, 419 (2000).Google Scholar

10. Yanagi, H., Hase, T., Ibuki, S., Ueda, K., and Hosono, H., Appl. Phys. Lett., 78, 1583 (2001).Google Scholar

11. Sze, S. M., Physics of Semiconductor Devices (John Wiley and Sons, New York, 1981) pp. 84–89 & 117-122.Google Scholar

12. Lampert, M. A. and Mark, P., Current Injection in Solids (Academic Press, New York and London, 1970) pp. 14–24.Google Scholar

13. Hoffman, R. L., Wager, J. F., Jayaraj, M. K., and Tate, J. (unpublished).Google Scholar

14. Benko, F. A. and Koffyberg, F. P., Can. J. Phys. 63, 1306 (1985).Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Jayaraj, M.K. Draeseke, A.D. Tate, J. and Sleight, A.W. 2001. p-Type transparent thin films of CuY1−xCaxO2. Thin Solid Films, Vol. 397, Issue. 1-2, p. 244.

Tate, J. Jayaraj, M.K. Draeseke, A.D. Ulbrich, T. Sleight, A.W. Vanaja, K.A. Nagarajan, R. Wager, J.F. and Hoffman, R.L. 2002. p-Type oxides for use in transparent diodes. Thin Solid Films, Vol. 411, Issue. 1, p. 119.

Banerjee, A.N. and Chattopadhyay, K.K. 2005. Recent developments in the emerging field of crystalline p-type transparent conducting oxide thin films. Progress in Crystal Growth and Characterization of Materials, Vol. 50, Issue. 1-3, p. 52.

Sheng, Su Fang, Guojia Li, Chun Xu, Sheng and Zhao, Xingzhong 2006. p‐type transparent conducting oxides. physica status solidi (a), Vol. 203, Issue. 8, p. 1891.

Joseph, J. Mathew, V. and Abraham, K. E. 2006. Physical properties of Dy and La doped SnO2 thin films prepared by a cost effective vapour deposition technique. Crystal Research and Technology, Vol. 41, Issue. 10, p. 1020.

Banerjee, Arghya N. and Chattopadhyay, Kalyan K. 2008. Reactive Sputter Deposition. Vol. 109, Issue. , p. 413.

Shin Lee and Yi Hu 2010. Effect of oxygen partial pressure on the electrical properties of the LSCO/AZO heterojunction. p. 686.

2011. Introduction to Surface Engineering and Functionally Engineered Materials. p. 457.

Schulz, Christina Ulrich, Stephan and Szyszka, Bernd 2012. p‐TCOs für Transparente Elektronik. Vakuum in Forschung und Praxis, Vol. 24, Issue. 4, p. 12.

Tyagi, Manisha Tomar, Monika and Gupta, Vinay 2012. Influence of post-deposition annealing on structural, optical and electrical characteristics of NiO/ZnO thin film hetero-junction. MRS Proceedings, Vol. 1394, Issue. ,

Sang, D. D. Li, H. D. Cheng, S. H. Wang, Q. L. Yu, Q. and Yang, Y. Z. 2012. Electrical transport behavior of n-ZnO nanorods/p-diamond heterojunction device at higher temperatures. Journal of Applied Physics, Vol. 112, Issue. 3,

Stadler, Andreas 2012. Transparent Conducting Oxides—An Up-To-Date Overview. Materials, Vol. 5, Issue. 4, p. 661.

Lee, Shin and Hu, Yi 2013. Effect of oxygen partial pressure on the electrical properties of the La 0.5 Sr 0.5 CoO 3 /Al-doped ZnO thin film heterojunctions. Surface and Coatings Technology, Vol. 231, Issue. , p. 293.

Sinha, S.K. Ray, S.K. and Manna, I. 2014. Effect of Al doping on structural, optical and electrical properties of SnO2thin films synthesized by pulsed laser deposition. Philosophical Magazine, Vol. 94, Issue. 31, p. 3507.

Tyagi, Manisha Tomar, Monika and Gupta, Vinay 2015. Trap assisted space charge conduction in p-NiO/n-ZnO heterojunction diode. Materials Research Bulletin, Vol. 66, Issue. , p. 123.

Zhang, Tong Li, Liuan and Ao, Jin-Ping 2016. Temperature-dependent electrical transport characteristics of a NiO/GaN heterojunction diode. Surfaces and Interfaces, Vol. 5, Issue. , p. 15.

Wang, Liying Cheng, Shaoheng Wu, Chengze Pei, Kai Song, Yanpeng Li, Hongdong Wang, Qinglin and Sang, Dandan 2017. Fabrication and high temperature electronic behaviors of n-WO3 nanorods/p-diamond heterojunction. Applied Physics Letters, Vol. 110, Issue. 5,

Ren, Yuan Li, Liuan Liu, Ningyang Zhang, Kang Li, Chengguo Chen, Zhitao and Zhang, Baijun 2020. Quasi-vertical GaN heterojunction diodes with p-NiO anodes deposited by sputtering and post-annealing. Vacuum, Vol. 182, Issue. , p. 109784.

Yang, FeiFan Peng, WenBo Zhou, YiJian Li, Rong Xiang, GuoJiao YueLiu, JinMing Zhang Zhang, JiaHui Zhao, Yang and Wang, Hui 2022. Thermal optimization of defected Cu2O photon-absorbing layer and the steady p-Cu2O/n-Si photovoltaic application. Vacuum, Vol. 198, Issue. , p. 110876.

Wang, Hui Fan Yang, Fei Li, Rong Jian Zhou, Yi Bo Peng, Wen Jiao Xiang, Guo Ming Zhang, Jin Liu, Yue Hui Zhang, Jia Zhao, Yang and Feng Shi, Zhi 2022. Pro-environment Cu2O facilitate stable low-wastage ultraviolet p-CuxO/n-GaN LEDs with virtual electron blocking nanolayer. Optics & Laser Technology, Vol. 151, Issue. , p. 108063.

Download full list

Article contents

Transparent p-n Heterojunction Thin Film Diodes

Abstract

Access options

References

REFERENCES

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Transparent p-n Heterojunction Thin Film Diodes

Abstract

Access options

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests