Bayram KILIÇ

• Postdoctoral Research: Advanced Photovoltaic Research Center, University of California, Davis, USA (2012-2013)
• Ph.D. (Thesis): Nanotechnology and Energy Research Center, The University of Queensland, Australia (2008-2010)
• Ph.D. (Courses): Solid-State Physics, Atatürk University (2006-2008)
• M.Sc.: Solid-State Physics, Atatürk University (2006)
• B.Sc.: Physics, Atatürk University (2003)

• Yalova University, Turkey
  Department of Energy Systems Engineering, Faculty of Engineering
  Position: Associate Professor (2015 - Present)
• University of California, Davis, USA
  Department of Chemical Engineering
  Position: Postdoctoral Researcher (2012 - 2013)
• Yalova University, Turkey
  Department of Energy Systems Engineering, Faculty of Engineering
  Position: Assistant Professor (2010 - 2015)
• The University of Queensland, Australia
  Nanotechnology Research Center
  Position: Researcher (2008 - 2010)

• Solar Energy Systems
• Photovoltaic Cells
• Nanotechnology and Nano-Semiconductor Synthesis
• Next-Generation Materials and Applications in Energy Systems
• Renewable Energy Sources
• Optoelectronic Materials
• Nano-Semiconductors and Thin-Film Solar Cells
• Solid-State Electronics

Undergraduate Courses (Last 5 Years):

• Physics I, Physics II
• Renewable Energy Resources
• Fuel Cells
• Solar Energy Technologies
• Photovoltaic Cell Technologies
• Semiconductor Technologies and Applications

Graduate Courses (Last 5 Years):

• Nanotechnology: Fundamentals and Applications
• Solar Energy Conversion Technologies
• Solar Energy Applications (Non-Thesis Program)

Publications:

1. Kılıç B, Yeni Nesil Güneş Hücrelerinde Hibrit Nano-yarıiletkenlerin Sentezlenerek Optoelektronik Özelliklerinin İncelenmesi, Düzce Üniversitesi Bilim ve Teknoloji Dergisi, 9 (2021) 51-59
2. KILIC, Bayram, et al. Carbon nanofiber based CuO nanorod counter electrode for enhanced solar cell performance and adsorptive photocatalytic activity. Journal of Nanoparticle Research, 2020, 22: 1-11.
3. Kilic B, “Synthesis of carbon nanofiber based WO3/ TiO2 hybrid nanostructures: Enhanced and improved solar conversion efficiency in dye-sensitized solar cell”, J. Renewable Sustainable Energy 11, 023706 (2019);
4. Kilic B, “Interface effect of graphene–TiO2 photoanode with CuO nanorod counter electrode on solar conversion efficiency and enhanced external quantum efficiency”, Optical and Quantum Electronics (2019) 51:208
5. Kilic B, “Produce of carbon nanotube/ZnO nanowires hybrid photoelectrode for efficient dye-sensitized solar cells”, Journal of Materials Science: Materials in Electronics, February 2019, Volume 30, Issue 4, pp 3482–3487
6. Kilic B, Turkdogan S, Astam A, Baran SS, Asgin M, Gur E, Kocak Y. Interfacial engineering of CuO nanorod/ZnO nanowire hybrid nanostructure photoanode in dye-sensitized solar cell. Journal of Nanoparticle Research. 2018 Jan 1;20(1):11.
7. Turkdogan S, Kilic B. Synthesis and characterization of metal oxide semiconductors by a facile co-electroplating-annealing method and formation of ZnO/CuO pn heterojunctions with rectifying behavior. Materials Research Express. 2018 Jan 4;5(1):015902.
8. Bilgin Simsek Esra, Kiliç Bayram, Asgin Mansur, Akan Ayse (2018). Graphene oxide based heterojunction TiO2-ZnO catalysts with outstanding photocatalytic
performance for bisphenol-A,ibuprofen and flurbiprofen. Journal of Industrial and Engineering Chemistry, 10, (2018), Doi: doi.org/10.1016/j.jiec.2017.10.014 (Yayın No: 3618882)
9. Kiliç Bayram, Türkdogan Sunay, Astam Aykut, Baran Sümeyra Seniha, Asgin Mansur,CEBECI HÜLYA, Ürk Deniz (2017). Graphene-based copper oxide thin film nanostructures as highefficiency photocathode for p-type dye-sensitized solar cells. Journal of Photonics for Energy, 7(04), 1, (2017), Doi: 10.1117/1.JPE.7.045502 (Yayın No: 3606170)
10. S.Turkdogan, B. Kilic, Metal oxide sandwiched dye-sensitized solar cells with enhanced power conversion efficiency fabricated by a facile and cost effective method, Materials Science in Semiconductor Processing 71 (2017) 382–388
11. B. Kilic, S. Turkdogan, Fabrication of dye-sensitized solar cells using graphene sandwiched 3DZnO nanostructures based photoanode and Pt-free pyrite counter electrode, Materials Letters 193 (2017) 195–198
12. B. Kilic, S. Turkdogan, A. Astam, O. C. Ozer, M. Asgin, H. Cebeci, D. Urk & S. Pravadili Mucur, Preparation of Carbon Nanotube/TiO2 Mesoporous Hybrid Photoanode with Iron Pyrite (FeS2) Thin Films Counter Electrodes for Dye-Sensitized Solar Cell, Nature (Scientific Reports ), 6 (2016), 27052 | DOI: 10.1038/srep27052
13. B. Kilic, SunayTurkdogan, Oguz Can Ozer, Mansur Asgin, Ozge Bayrakli, Gokhan Surucu, Aykut Astam, Duygu Ekinci, Produce of graphene/ironpyrite (FeS2) thin films counter electrode for dye-sensitized solar cell, Materials Letters 185 (2016) 584–587
14. B. Kılıç, H. Telli, S. Tüzemen, A. Başaran, G. Pirge, Design of Hybrid Nanoheterostructure Systems for Enhanced Quantum and Solar Conversion Efficiencies in Dye-Sensitized Solar Cells, Journal of Applied Physics 1-10 (2015) JR14-11554R1
15. B. Kılıç, V. Çevik, Self-assembled growth of tandem nanostructures based on TiO2
a. mesoporous/ZnO nanowire arrays and their optoelectronic and photoluminescence, Applied Physics A 1-8 (2015) DOI 10.1007/s00339-015-9030-6
16. B. Kılıç, N. Gedik, S. Mucur, A.S. Hergul, E. Gür, Band gap engineering and modifying surface of TiO2 nanostructures by Fe2O3 for enhanced-performance of dye sensitized solar cell, Materials Science in Semiconductor Processing 31 (2015) 363–371
17. B.Kılıç, D.Omay, “In-situ deposition of zinc oxide nanowires onto UV-cured chitin derivatives and their antibacterial properties” Materials Science in Semiconductor Processing 20 (2014) 35–40
18. B.Kılıç, T. Günes, İ. Besirli, M. Sezginer, S. Tuzemen, “Construction of 3-dimensional ZnO-nanoflower structures for high quantum and photocurrent efficiency in dye sensitized solar cell” Applied Surface Science, 318 (2014) 32–36
19. B.Kılıç, J.Roehling, Ö.T. Ozmen, “Synthesis and Optoelectronic Properties of Pyrite (FeS2) Nanocrystals Thin Films for Photovoltaic Applications” Journal of Nanoelectron.Optoelectron. 8, 260-266 (2013)
20. B. Kılıç, L. Wang, O.Ozdemir, M. Lu, S. Tüzemen," One-Dimensional (1D) ZnO Nanowires Dye Sensitized Solar Cell", Journal of Nanoscience and Nanotechnology, Vol.13, 333-338, (2013)
21. B. Kılıç, D. Omay, E. Kosa, L. Trabzon, H. Kizil, "Growth of ZnO Nanostructures on Biopolymer Films", Journal of Materials Science and Engineering A 2 (12) (2012)
22. B. Kılıç, E. Gür, S. Tüzemen, "Nanoporous ZnO Photoelectrode for Dye Sensitized Solar Cell", Journal of Nanomaterials, Volume 2012, 474656, 7 (2012)
23. E. Gür, B. Kılıç, S.Tuzemen, C. Coşkun, F. Bayrakçeken “Nanoporous structures on ZnO thin films”, Superlattices and Microstructures, 47 (2010) 182–186
24. E. Gür, S. Tuzemen, B. Kılıç and C. Coşkun “High-temperature Schottky diode characteristics of bulk ZnO”, Journal of Physics: Condensed Matter, 19 (2007) 196206.