Şükrü KARATAŞ | Experimental methods | Excellence in Research

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Prof. Şükrü KARATAŞ | Experimental methods | Excellence in Research

Kahramanmaraş Sütçü İmam University | Turkey

Prof. Şükrü Karataş is a renowned professor in the Department of Physics at Kahramanmaraş Sütçü İmam University (KSÜ). With nearly 100 scientific publications and over 3,200 citations, Prof. Karataş has become a leading figure in the field of semiconductor devices and solar cell technology. His research primarily focuses on the preparation and electrical and dielectric properties of Schottky diodes, MS, MIS, MOS structures, and solar cells, making significant contributions to material science and energy technology.

👨‍🎓Profile

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Early Academic Pursuits 🎓

Prof. Karataş’s academic journey began at Dicle University in Diyarbakır, Turkey, where he earned his B.S. in Physics in 1992. Driven by a passion for understanding the fundamental aspects of physics, he pursued advanced studies at Kahramanmaraş Sütçü İmam University and Gazi University, obtaining his M.S. (1996) and Ph.D. (2003) degrees, respectively. His deep interest in semiconductors and material sciences has been a defining feature of his academic career.

Professional Endeavors 💼

Prof. Karataş has been an integral part of the KSÜ Faculty of Science, starting as a Research Assistant and progressing to a full Professor. He has been involved in numerous research projects, both completed and ongoing, taking on executive roles and contributing to various fields of semiconductor physics and solar energy. His expertise has been sought by national and international symposia, where he has been invited as a speaker, showcasing his influence in the scientific community.

Contributions and Research Focus 🔬

Prof. Karataş is widely recognized for his contributions to semiconductor devices such as Schottky diodes, MS, MIS, and MOS structures, with a focus on their electrical and dielectric properties in relation to temperature, frequency, and radiation. His pioneering work in solar cells has garnered significant attention for its practical applications in renewable energy. The depth of his research in the preparation, analysis, and optimization of these devices is central to his academic identity.

Academic Cites 📑

Prof. Karataş has established himself as a highly respected researcher, amassing over 3,200 citations across nearly 100 published articles. His cited work speaks to the relevance and impact of his research, particularly in semiconductor devices and solar energy systems. His papers are often referenced in studies concerning the electrical and dielectric properties of materials used in high-tech applications, ensuring his influence reaches across a wide range of scientific disciplines.

Research Skills 🔧

Prof. Karataş possesses a diverse skill set, including expertise in the preparation and analysis of semiconductor materials and solar cells. His ability to explore the electrical properties of Schottky diodes and MOS structures under varying conditions such as temperature, frequency, and radiation has contributed significantly to the advancement of semiconductor technology. Additionally, his leadership in executing projects has showcased his ability to collaborate and manage large, complex research efforts.

Teaching Experience 👨‍🏫

Prof. Karataş is a passionate educator who has taught a wide range of advanced courses at the master’s and doctoral levels. His teaching spans subjects related to semiconductors, material science, and solar energy, and he has mentored many graduate students in these fields. His dedication to academic excellence is evident not only through his lectures but also through his role as a graduate advisor, guiding students in their research pursuits and helping shape the next generation of scientists.

🌟 Legacy and Future Contributions

Prof. Karataş’s legacy lies in his pioneering research, impactful publications, and the success of his students. Looking ahead, he aims to expand his work in renewable energy technologies and foster global collaborations to further advance the field of semiconductor physics. His vision ensures that his contributions will continue to influence the scientific community for years to come.

Publications Top Notes

 

 

Abdul Muneeb| Experimental methods | Best Researcher Award

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Mr. Abdul Muneeb| Experimental methods | Best Researcher Award

Research Associate at University of Engineering and Technology, Lahore, Pakistan

Abdul Muneeb, born on October 3, 1995, in Pakistan, is an emerging researcher in applied physics. He recently completed his MPhil from the University of Engineering and Technology (UET), Lahore. His academic journey has been marked by a profound commitment to advancing research in nanomaterials, photocatalysis, and experimental plasma physics. His MPhil thesis focused on fabricating Ag-TiO2 nanocomposites using Dielectric Barrier Discharge (DBD) plasma for the photodegradation of methylene blue. Abdul’s dedication to his field is reflected in his published works in high-impact international journals. Currently, he is pursuing a fully funded Ph.D. position to further explore photocatalysis and plasma-based materials, with the goal of making substantial contributions to both academia and industry.

Profile:

Education:

Abdul Muneeb holds an MPhil in Applied Physics from the University of Engineering and Technology (UET), Lahore, which he completed in 2022 with a CGPA of 3.15. His thesis focused on the photocatalytic activities of Ag-TiO2 nanocomposites, which he prepared using Dielectric Barrier Discharge (DBD) plasma. Throughout his education, he developed expertise in various advanced fields, including nanomaterials, experimental plasma physics, and material characterization techniques like XRD, FESEM, and UV-Vis spectroscopy. His coursework included specialized subjects such as photonics, optoelectronics, and advanced lasers. With a strong foundation in applied physics and hands-on experience with experimental techniques, Abdul’s academic training has prepared him for advanced research in plasma and nanotechnology fields.

Professional experience:

Abdul Muneeb has gained valuable experience as a Research Associate at the Faculty of Natural Sciences, UET Lahore, since 2022. In this role, he has been involved in designing and implementing research protocols, developing new product tests, and supervising junior researchers. He has contributed to various research publications and scholarly activities, focusing on nanomaterials and experimental plasma physics. Abdul also worked as a visiting lecturer at UET New Campus KSK from December 2022 to July 2023, where he delivered lectures on various physics topics and guided students through practical laboratory experiments. His experience in both academia and research has equipped him with the skills to effectively communicate scientific knowledge and contribute to cutting-edge research in his field.

Research focus:

Abdul Muneeb’s research focus lies at the intersection of nanotechnology, photocatalysis, and experimental plasma physics. His MPhil research primarily centered on the fabrication of Ag-TiO2 nanocomposites using Dielectric Barrier Discharge (DBD) plasma for environmental applications, specifically in the photodegradation of methylene blue. His work explores the potential of plasma-assisted synthesis methods to enhance the photocatalytic efficiency of nanomaterials. Additionally, Abdul’s interests extend to the development of novel metal oxide semiconductor photocatalysts and the characterization of materials using advanced techniques such as XRD, FESEM, and UV-Vis spectroscopy. He aims to contribute to the fields of plasma physics and nanomaterials by advancing the understanding of how plasma processes can be used to create innovative materials for environmental and industrial applications.

Awards and Honors:

Abdul Muneeb has received recognition for his academic excellence and research contributions. During his MPhil studies, he earned high grades in advanced subjects such as photonics, optoelectronics, and lasers, receiving praise from his professors for his exceptional skills. He secured third position in an energy-saving campaign poster competition during his undergraduate studies at the Government College of Science in Lahore. His research work has been acknowledged through publications in reputed international journals, including Physica B: Condensed Matter and Environmental Health Insights. Abdul has actively participated in various national and international conferences, presenting his research at the 5th International Conference on Material Science & Nanotechnology 2022, where he was a speaker. His dedication to pushing the boundaries of applied physics has earned him admiration from both his mentors and peers.

Publication Top Notes:

  • Publication Title: Emission of ions and electrons correlated with soft and hard x-rays evolution from thermal plasma
    Authors: Ahmad, A.N., Rafique, M.S., Arslan, M., Mahmood, H., Amir, M.
    Publication Year: 2024
    Citations: 0
  • Publication Title: Atmospheric pressure plasma-assisted growth of hexagonal boron nitride nanosheets for improved aluminum hardness
    Authors: Mudassar, M., Rafique, M.S., Naveed, A., Aamir, M., Razaq, M.B.
    Publication Year: 2024
    Citations: 0
  • Publication Title: Enhanced thermal conductivity of plasma generated ZnO–MgO based hybrid nanofluids: An experimental study
    Authors: Nazir, A., Qamar, A., Rafique, M.S., Fayaz, H., Saleel, C.A.
    Publication Year: 2024
    Citations: 3
  • Publication Title: Closed-Loop Implantable Neurostimulators for Individualized Treatment of Intractable Epilepsy: A Review of Recent Developments, Ongoing Challenges, and Future Opportunities
    Authors: Kassiri, H., Muneeb, A., Salahi, R., Dabbaghian, A.
    Publication Year: 2024
    Citations: 0
  • Publication Title: Abatement of Aerosols by Ionic Wind Extracted From Dielectric Barrier Discharge Plasma
    Authors: Arshad, T., Rafique, M.S., Bashir, S., Shahadat, I., Nayab, N.
    Publication Year: 2024
    Citations: 0
  • Publication Title: Fabrication of Ag–TiO2 nanocomposite employing dielectric barrier discharge plasma for photodegradation of methylene blue
    Authors: Muneeb, A., Rafique, M.S., Murtaza, M.G., Rafique, M., Nazir, A.
    Publication Year: 2023
    Citations: 3
  • Publication Title: Automated Door to Prevent COVID-19 using Fuzzy Logic
    Authors: Khokhar, S.-U.-D., Sohaib, R., Muneeb, A., Noor, M.Y., Imran, M.
    Publication Year: 2023
    Citations: 0
  • Publication Title: A 9.5ms-Latency 6.2μJ/Inference Spiking CNN for Patient-Specific Seizure Detection
    Authors: Muneeb, A., Mehrotra, S., Kassiri, H.
    Publication Year: 2023
    Citations: 1
  • Publication Title: Energy-Efficient Spiking-CNN-Based Cross-Patient Seizure Detection
    Authors: Muneeb, A., Kassiri, H.
    Publication Year: 2023
    Citations: 5
  • Publication Title: A 2.7μJ/classification Machine-Learning based Approximate Computing Seizure Detection SoC
    Authors: Muneeb, A., Ali, M., Altaf, M.A.B.
    Publication Year: 2022
    Citations: 7

 

 

Marzieh Abbasi-Firouzjah | Experimental methods | Best Researcher Award

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Dr. Marzieh Abbasi-Firouzjah | Experimental methods | Best Researcher Award

Academician/Research Scholar at Hakim Sabzevari University, Iran

Marzieh Abbasi-Firouzjah is an Associate Professor in the Department of Sciences Engineering at Hakim Sabzevari University, Sabzevar, Iran. Born in 1984, she has established herself as a leading expert in plasma engineering, with a particular focus on the photonics field. Dr. Abbasi-Firouzjah has made significant contributions to thin film deposition technologies and plasma systems. Her extensive academic background and research have earned her numerous publications in highly respected journals. With years of experience in both teaching and research, she continues to advance the frontiers of plasma technology while contributing to the academic community through her editorial and review work for prestigious journals.

Profile:

Education:

Dr. Abbasi-Firouzjah completed her Ph.D. in Photonics, specializing in Plasma Engineering, at Shahid Beheshti University’s Laser & Plasma Research Institute from 2010 to 2014. Her doctoral research focused on investigating plasma parameters in silica-based thin films deposited using plasma-enhanced chemical vapor deposition (PECVD), under the supervision of Dr. Babak Shokri. Prior to her Ph.D., she obtained her M.Sc. in Plasma Engineering at the same institution, working on silicon oxide film deposition using TEOS vapor. She began her academic journey with a B.Sc. in Atomic and Molecular Physics from the University of Mazandaran, where she explored underwater acoustic wave tracking for her undergraduate project. Her diverse educational background underpins her advanced research in plasma systems and thin film technology.

Professional experience:

Dr. Abbasi-Firouzjah brings a wealth of experience in both research and teaching, having specialized in the design, construction, and application of plasma systems for thin film deposition. She has worked extensively with RF, MW, and DC pulsed plasma generators, and her expertise includes using PECVD, DBD, and Sputtering reactors. She is proficient in advanced spectroscopy methods and the operation of vacuum systems. Her technical skills extend to the construction of multifunctional systems for plasma chemical vapor deposition and pulsed laser deposition. Dr. Abbasi-Firouzjah is also involved in antibacterial testing and has reviewed research for leading journals like Diamond & Related Materials and IEEE Transactions on Nanotechnology. Her work has helped push the boundaries of plasma engineering applications in both industrial and academic contexts.

Research focus:

Dr. Abbasi-Firouzjah’s research primarily revolves around plasma-enhanced chemical vapor deposition (PECVD) techniques and their application in the fabrication of thin films. Her work explores the optimization of plasma parameters to improve the structural, electrical, and optical properties of silica-based films. She has made significant contributions to the development of transparent, hard optical coatings, as well as the antibacterial and wettability properties of plasma-modified surfaces for biomedical applications. Additionally, her research extends to the deposition mechanisms of silicon oxide films and fluorinated diamond-like carbon films, with a focus on improving the mechanical and electrochemical properties of multilayer coatings. Dr. Abbasi-Firouzjah’s work has implications for industries ranging from optics to biomedicine, where advanced materials are critical for innovation.

Awards and Honors:

Dr. Marzieh Abbasi-Firouzjah has received numerous accolades for her contributions to plasma engineering and thin film technologies. Her research publications, featured in high-impact journals such as Journal of Non-Crystalline Solids and Journal of Thin Solid Films, highlight her leading role in the field. She has been invited to present at major international conferences, including the International Conference on Plasma Surface Engineering and the IEEE International Conference on Plasma Sciences. Dr. Abbasi-Firouzjah’s pioneering work on transparent and hard optical coatings and antibacterial applications of plasma-modified materials has positioned her as a recognized figure in the scientific community. Her dedication to advancing plasma technologies has been acknowledged through her inclusion in prestigious academic and industrial journals.

Publication Top Notes:

  • FTIR analysis of silicon dioxide thin film deposited by metal organic-based PECVD
    Authors: B. Shokri, M.A. Firouzjah, S.I. Hosseini
    Year: 2009
    Citation: 176
  • Investigation of antibacterial and wettability behaviours of plasma-modified PMMA films for application in ophthalmology
    Authors: F. Rezaei, M. Abbasi-Firouzjah, B. Shokri
    Year: 2014
    Citation: 104
  • The effect of TEOS plasma parameters on the silicon dioxide deposition mechanisms
    Authors: M. Abbasi-Firouzjah, S.I. Hosseini, M. Shariat, B. Shokri
    Year: 2013
    Citation: 60
  • Investigation of the properties of diamond-like carbon thin films deposited by single and dual-mode plasma enhanced chemical vapor deposition
    Authors: S.I. Hosseini, B. Shokri, M.A. Firouzjah, S. Kooshki, M. Sharifian
    Year: 2011
    Citation: 30
  • The effect of duty cycle on the mechanical and electrochemical corrosion properties of multilayer CrN/CrAlN coatings produced by cathodic arc evaporation
    Authors: N. Arab Baseria, M. Mohammadi, M. Ghatee, M. Abbasi-Firouzjah, et al.
    Year: 2020
    Citation: 27
  • Improving the oxygen barrier properties of PET polymer by radio frequency plasma-polymerized SiOxNy thin film
    Authors: M. Shahpanah, S. Mehrabian, M. Abbasi-Firouzjah, B. Shokri
    Year: 2019
    Citation: 25
  • Antibacterial properties of fluorinated diamond-like carbon films deposited by direct and remote plasma
    Authors: S.I. Hosseini, Z. Javaherian, D. Minai-Tehrani, R. Ghasemi, Z. Ghaempanah, et al.
    Year: 2017
    Citation: 18
  • Characterization of fluorinated silica thin films with ultra-low refractive index deposited at low temperature
    Authors: M. Abbasi-Firouzjah
    Year: 2015
    Citation: 15
  • Characteristics of ultra low-k nanoporous and fluorinated silica based films prepared by plasma enhanced chemical vapor deposition
    Authors: M. Abbasi-Firouzjah, B. Shokri
    Year: 2013
    Citation: 13
  • Deposition of high transparent and hard optical coating by tetraethylorthosilicate plasma polymerization
    Authors: M. Abbasi-Firouzjah, B. Shokri
    Year: 2020
    Citation: 12