PUBLISHED ARTICLES
1. Oeba, D.A, Bodunrin, J. O, & Moloi, S. J (2023). The electrical characteristics and conduction mechanisms of Zn doped silicon-based Schottky barrier diode. Heliyon, 9(12), e22793.
2. Bodunrin, J. O., Oeba, D. A., & Moloi, S. J. (2023). Exploring the Impact of Fe-Implantation on the Electrical Characteristics of Al/p-Si Schottky Barrier Diodes. Electronic Materials, 4(2), 95-109.
3. Oeba, D. A., Bodunrin, J. O., & Moloi, S. J. (2022). Effects of zinc doping on current-voltage and capacitance-voltage-frequency characteristics of n-silicon Schottky diode. (Pre-print)
4. Oeba, D. A., & Mosiori, C. O. (2022). Electrical and Optical Properties of Boron Doped Zinc Oxide Thin-film Deposited by Metal-organic Chemical Vapour Deposition for Photovoltaic Application. Physical Science International Journal, 26(7), 48-55.
5. Soon Min, H., Oeba, D., Makori, E., Munji, M., & Njoroge, W. (2022). Opto-Electrical Properties of Chemical bath Deposited Cu4SnS4 Thin Films. J. Thin Film Sci. Tec. 11(1), 2.
6. Oeba, D. A., Bodunrin, J. O., & Moloi, S. J. (2021). Electrical properties of 3 MeV proton irradiated silicon Schottky diodes. Physica B: Condensed Matter, 412786.
7. Bodunrin, J. O., Oeba, D. A., & Moloi, S. J. (2021). Current-voltage characteristics of iron- implanted silicon-based Schottky diodes. Materials Science in Semiconductor Processing, 123,
8. Bodunrin, J. O., Oeba, D. A., & Moloi, S. J. (2021). Current-voltage and capacitance-voltage characteristics of cadmium-doped p-silicon Schottky diodes. Sensors and Actuators A: Physical,
9. Oeba A., & Mosiori, C. O. (2020). Effect of dyes Nano-material electrodes for exploration of dye-sensitized solar cells. Int. J. Thin Film Sci. Tec. Vol. 9, No 1, 51-55
10. Oeba D. A. (2019). Optical and electrical properties of CdS: B thin film deposited by chemical bath deposition for photovoltaic application. Int. Thin Film Sci. Tec. Vol. 8, No 3, 93-599
11. Oeba, A., Bodunrin, J. O., and Moloi, S. J. (2019). Current-voltage characteristics of aluminum and zinc implanted silicon for radiation detection applications. CEUR Works. Proc. Vol. 2507, Issue 40: 230-235
12. Mosiori, C.O. & Oeba, D.A (2018) Optoelectronic and Structural Effect of Nanoparticles on Cerium Titanium Thick Film International Educational Applied Research Journal, IEARJ, Vol. 2, Issue 2: 2456-6713
13. Oeba, A. (2018). Electrical and optical characterization of Cu4SnS4 and CdS: B thin films for photovoltaic applications. Kenyatta university, Nairobi-Kenya.
14. Mosiori, O., & Oeba, D. A. (2017). Studies on Cd1Se0. 6Te0. 4 Thin Films by Spectroscopic and Diffractometer Characterization. Traektoriâ Nauki= Path of Science, 3(9).
15. Makori, N. E., Oeba, D. A., & Mosiori, C. (2017). Relationship between bandgap and particle size of cadmium sulfide quantum dots. Chemistry Research Journal, 2(5), 15-21.
16. Mosiori, O., Oeba, D. A., & Shikambe, R. (2017). Determination of Planck’s Constant using Light Emitting Diodes. Traektoriâ Nauki= Path of Science, 3(10).
BOOK CHAPTER
1. Soonmin, H., Hegde, S., Ramesh, K., Dongre, J. K., Khattak, Y. H., Zhang, X. H., ... & Oeba, D. A. (2021). Chalcogenides-based nanomaterials for solar cells and dye-sensitized solar cells. In Chalcogenide-Based Nanomaterials as Photocatalysts (pp. 185-218). Elsevier.