Dr. Cliff Orori Mosiori

Lecturer and Researcher
Department of Mathematics and Physics


Highest Degree
Ph.D. in Physics from Kenyatta University, Kenya

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Biography

Dr. Cliff Orori Mosiori obtained his Ph.D. in physics specializing in condensed matter physics after earning a Master of Science in Physics specializing in electronics and instrumentation.

Area of Interest:

Physics
Organic Compounds
Thermal Physics
Solar Cells
Photovoltaic

Selected Publications

  1. Oeba, D.A. and C.O. Mosiori, 2020. Effect of dyes nano-material electrodes for exploration of dye- sensitized solar cells. Int. J. Thin Films Sci. Technol., 9: 51-55.
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  2. Mosiori, C.O., W.K. Njoroge and L.O. Ochoo, 2020. Influence of localized surface plasmon polaritons on silver nanoparticles. ABC J. Adv. Res., 9: 39-44.
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  3. Mosiori, C.O., W.K. Njoroge and L.O. Ochoo, 2019. Influence of different spherical binary plasmonic NPs on HTM layer in methyl ammonium lead triiodide solar cell. Path Sci., 5: 4001-4010.
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  4. Orori, M.C., 2018. Effect of buffer layer on TiO2-SnS photo cell. Asian J. Applied Sci. Eng., 6: 129-134.
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  5. Mosiori, C.O., 2018. Optical and electrical effects of Ag NPs on cerium titanium thin films. Asian J. Applied Sci. Eng., Vol. 6. .
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  6. Mosiori, C.O., 2018. Effect of silver nanoparticles ink on cerium titanium oxide thin films. Phys. Sci. Int. J., 19: 1-6.
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  7. Mogunde, C. and C.O. Mosiori, 2018. Transmittance and extinction coefficient of sea and well-water in mombasa county, Kenya. Path Sci., 4: 3001-3005.
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  8. Mogunde, C. and C.O. Mosiori, 2018. TiO2 thin films by solution technique for solar cells. Path Sci., 4: 6001-6007.
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  9. Mosiori, C.O., W.K. Njoroge and L.O. Ochoo, 2017. Optical analysis of Ag-NPs containing methyl ammonium lead tri-iodide thin films. Traektoria Nauki, Path Sci., Vol. 3. .
    Direct Link  |  

  10. Mosiori, C.O., W.K. Njoroge and L.O. Ochoo, 2017. Optical analysis of Ag-NPs containing methyl ammonium lead tri-iodide thin films. Path Sci., 3: 2007-2015.
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  11. Mosiori, C.O., D.A. Oeba and R. Shikambe, 2017. Determination of Planck's constant using light emitting diodes. Traektoria Nauki, Path Sci., Vol. 3. .
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  12. Mosiori, C.O., 2017. Narrow band gap ternary absorber layer for solar cell for small business enterprises in equatorial Africa. Eng. Int., 5: 27-36.
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  13. Mosiori, C.O., 2017. Modeling a bandwidth of a two-level independent quantum laser system states. Traektoria Nauki, 3: 2012-2018.
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  14. Mosiori, C.O., 2017. Modeling a bandwidth of a two-level independent quantum laser system states. Path Sci., 3: 2012-2018.
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  15. Mosiori, C.O., 2017. Impact of annealing thin films In(OH)xSy growth by solution technique. Path Sci., Vol. 3, No. 7. 10.22178/pos.24-3.
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  16. Mosiori, C.O., 2017. Electrical behavior of Cd0.3Zn1.1xS0.7 thin films for non-heat light emitting diodes. Path Sci., Vol. 3, No. 6. 10.22178/pos.23-5.
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  17. Mosiori, C.O., 2017. Effect of surface passivation on CdxNi1-xS thin films embedded with nickel nanoparticles. Path Sci., 3: 3001-3010.
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  18. Mosiori, C.O. and J. Maera, 2017. Modeling BJT transistor small signal response for Advanced Driver Assistance Systems (ADAS) using miller effect. Autom. Software Dev. Eng., Vol. 2. 10.2515/asdej.57.92.9034.
    CrossRef  |  Direct Link  |  

  19. Mosiori, C.O. and J. Maera, 2017. Electrical effect of zinc nano-particles on CdS films grown by slow solution process. J. Scient. Eng. Res., 4: 253-260.
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  20. Mosiori, C.O. and J. Maera, 2017. Design and automation of a hybrid system for generating electric power. Autom. Software Dev. Eng., Vol. 2. 10.2515/asdej.13.03.1997.
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  21. Mosiori, C.O. and D.A. Oeba, 2017. Studies on Cd1Se0.6Te0.4 thin films by spectroscopic and diffractometer characterization. Traektoria Nauki, Path Sci., Vol. 3. .
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  22. Mosiori, C. and O. Duke, 2017. Studies on cd1se0.6te0.4 thin films by spectroscopic and diffractometer characterization. Traektoria Nauki, 3: 2001-2006.
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  23. Makori, N.E., D.A. Oeba and C.O Mosiori, 2017. Relationship between Band gap and particle size of Cadmium sulfide quantum dots. Chem. Res. J., 2: 15-21.
    PubMed  |  

  24. Mosiori, C.O., M.I. Kwembur and J. Maera, 2016. Thermal emittance and solar absorptance of CdS thin films. Int. J. Eng. Inventions, 4: 1-5.

  25. Mosiori, C.O., 2016. Modeling damping for a loaded spring in an acoustic liquid media. Eng. Int., 4: 9-18.
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  26. Mosiori, C.O., 2016. Effects of quantum confinements in tin sulphide nanocrystals produced by wet-solution technique. Asia Pac. J. Energy Environ., 3: 73-80.
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  27. Mosiori, C.O. and J. Maera, 2016. Tracking intrinsic properties of CH3NH3PbI3 perovskite thin films grown by spin coating technique at ambient temperature. Asia Pac. J. Energy Environ., 3: 95-104.
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  28. Mosiori, C.O., J. Maera, W.K. Njoroge, T.R. Shikambe, M. Munji and R. Magare, 2015. Modeling transfer of electrons between energy states of an electrolyte and CdS thin films using Gerischer model. Eng. Int., 3: 35-44.
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  29. Mosiori, C.O., J. Maera and W.K. Njoroge, 2015. Absorbance in chemical bath deposited CuS thin films. Standard Scient. Res. Essays, 2: 739-742.
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  30. Mosiori, C.O., 2015. Inorganic Ternary Thin films: Analysis of Optical Properties. Anchor Academic Publishing, Hamburg, Germany, ISBN: 9783-954-89346-1, Pages: 224.

  31. Mosiori, C.O. and W.K. Njoroge, 2015. High Speed Semiconductor Physics. Theoretical Approaches and Device Physics. Anchor Academic Publishing, Hamburg, Germany, ISBN: 978-3-95489-932-6, Pages: 412.

  32. Mosiori, C.O. and J. Maera, 2015. Electrical analysis of bis (2-amino-4-methylpyridinium) tetrachloridozincate compound grown by chemical bath deposition at ambient temperature and pressure conditions. Chem. J., 5: 108-114.
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  33. Mosiori, C.O., W.N. Njoroge and J. Okumu, 2014. Optical and electrical properties of Pbs thin films grown by Chemically Bath Deposition [CBD] at different lead concentrations. Int. J. Adv. Res. Phys. Sci., 1: 25-32.
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  34. Mosiori, C.O., W.N. Njoroge and J. Okumu, 2014. Electrical and optical characterization of CdxZn1-xS thin films deposited by chemical bath deposition in alkaline conditions. Direct Res. J. Chem. Mater. Sci., 2: 13-20.
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  35. Mosiori, C.O., 2014. Synthesis procedures for silver nanoparticles. Eng. Int., 2: 87-90.
    CrossRef  |  Direct Link  |  

  36. Mosiori, C.O., 2014. Physics of Thermal Phenomena: Introduction to Thermal Physics. Lambert Academic Publishing, Germany, ISBN: 978-3-659-51761-7, Pages: 672.

  37. Mosiori, C.O., 2014. Digital Electronics: An Introductory Course to Concepts, Principles and Devices. Lambert Academic Publishing, Germany, ISBN: 978-3-659-58183-0, Pages: 644.

  38. Mosiori, C.O. and W.K. Njoroge, 2014. Optical Coating. Lambert Academic Publishing, Germany, ISBN: 978-3-659-54225-1, Pages: 404.

  39. Mosiori, C.O., 2013. Thin Film Device Physics for Solar Cell Application: The Basics of Solar Cells. Lambert Academic Publishing, Germany, ISBN: 978-3-659-43868-4, Pages: 412.

  40. Mosiori, C.O., 2013. Effect of dielectric constant on energy losses in lead sulphide thin films grown by solution method at room temperature. Int. J. Phys. Sci., 8: 1716-1721.
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  41. Mosiori, C.O., 2013. Characterization of CdxZn1-xS and PbS Thin Films for Photovoltaics: Optical and Electrical Properties. Lambert Academic Publishing, Germany, ISBN-13: 978-3659414039, Pages: 120.