M. (Murat) Kabatas PhD
M. (Murat) Kabatas PhD
Profile
Murat Kabatas, also known as M. A. Basyooni, is a physicist focusing on nanoengineering and advanced materials with an academic and industrial research and technological development background. As a postdoctoral researcher, he joined the Dynamics of Micro and Nanosystems (DMN) group, Precision and Microsystems Engineering (PME) Department at the Mechanical Engineering (ME) Faculty.
He holds a Ph.D. in Nanotechnology and Advanced Materials, an M.Eng. in Nanoscience and Nanoengineering, an M.Sc. in Experimental Physics, and a B.Sc. in Physics. His expertise lies in a wide array of techniques for the deposition of thin films involving various 2D oxides, metal oxides, and 2D transition metal dichalcogenides. This includes mastering atomic layer deposition, thermal evaporation, pulsed laser deposition, DC and RF sputtering, chemical vapor deposition, sol-gel, and spray methods. His extensive research portfolio showcases his proficiency across diverse applications like gas sensors, Enose sensors, photodetectors, nonlinear optoelectronics, UV photonics, thermochromic technologies, VO2 phase transition devices, BaTiO3 devices, photonic crystals, phononic crystals, negative photoconductive devices, optics, and ultrathin plasmonics.
Currently, focusing on “Inkjet Functionalization of Pixelated CMOS Capacitor Sensor Array for Selective Gas Detection” by using a PIXDRO inkjet printer for the on-chip deposition of metal-organic frameworks (MOFs), polymers, and nanoparticles for highly selective volatile organic compound (VOC)-based Electronic Nose (eNose) sensors. This research highlights the potential of inkjet printing technology in developing next-generation printable eNose VOC sensors that combine high performance, cost-effectiveness, and ease of integration, making them ideal for widespread environmental sensing applications.
Expertise
Publications
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2023
Reduced graphene oxide-functionalized zinc oxide nanorods as promising nanocomposites for white light emitting diodes and reliable UV photodetection devices
Issam Boukhoubza / Issam Derkaoui / Mohamed A. Basyooni / Mohamed Achehboune / Mohammed Khenfouch / Walid Belaid / Monica Enculescu / Elena Matei
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2023-4
Boosting the efficiency of Cu2ZnSnS4 solar cells with VO2 phase transition photonic crystal
Mohamed A. Basyooni / Amina Houimi / Mohammed Tihtih / Shrouk E. Zaki / Issam Boukhoubza / Walid Belaid / Redouane En-nadir / Jamal Eldin F.M. Ibrahim / G. F. Attia
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2023-4
Thermionic Emission of Atomic Layer Deposited MoO3/Si UV Photodetectors
Mohamed A. Basyooni / A. E.H. Gaballah / Mohammed Tihtih / Issam Derkaoui / Shrouk E. Zaki / Yasin Ramazan Eker / Şule Ateş
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2023
Development of Yttrium-Doped BaTiO3 for Next-Generation Multilayer Ceramic Capacitors
Mohammed Tihtih / Jamal Eldin F.M. Ibrahim / Mohamed A. Basyooni / Redouane En-Nadir / Walid Belaid / Irina Hussainova / István Kocserha
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2023
Enhanced optical and thermal conductivity properties of barium titanate ceramic via strontium doping for thermo-optical applications
Mohammed Tihtih / Jamal Eldin F.M. Ibrahim / Mohamed A. Basyooni / Redouane En-nadir / Walid Belaid / Mohamed M. Abdelfattah / Irina Hussainova / Gábor Pszota / István Kocserha
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Ancillary activities
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2023-09-01 - 2025-09-01