Dr. Mostafa Shooshtari , Microelectronics Institute of Seville, IMSE-CNM, University of Seville, CSIC,Spain
Dr. Mostafa Shooshtari is a highly skilled and motivated researcher in the field of electronic engineering, with a specialization in nanotechnology. He holds a Ph.D. in Electronic Engineering (Microelectronics) from K.N. Toosi University of Technology, Tehran, Iran, where he was distinguished for his academic excellence and research contributions. Dr. Shooshtari also served as a guest researcher at the Delft University of Technology (TU Delft), where he conducted advanced research in semiconductor processes, gas sensors, and solid-state electronics.Dr. Shooshtari’s research interests include semiconductor process engineering, gas sensor development, and the application of carbon family materials. He has extensive experience in modeling and simulation of semiconductor processes, as well as reliability studies and failure analysis. His work has led to numerous publications in high-impact journals, such as Sensors and Actuators B: Chemical and Nanotechnology.
Professional Profile:
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Summary of Suitability for Best Researcher Awards: Dr. Mostafa Shooshtari
Dr. Mostafa Shooshtari is a highly accomplished researcher in the field of electronic engineering, particularly focusing on nanotechnology, gas sensors, and semiconductor devices. His extensive experience and contributions make him a strong candidate for a Best Researcher Award.
🎓Education:
Dr. Mostafa Shooshtari holds a Ph.D. in Electronic Engineering with a specialization in Microelectronics from K.N. Toosi University of Technology in Tehran, Iran. During his doctoral studies, he was recognized for his academic excellence and made significant research contributions, particularly in semiconductor process engineering, gas sensor development, and the application of carbon family materials. In addition to his Ph.D. work, Dr. Shooshtari served as a guest researcher at Delft University of Technology (TU Delft) in the Netherlands, where he conducted advanced research in semiconductor processes, gas sensors, and solid-state electronics.
🏢Work Experience:
Dr. Mostafa Shooshtari has a diverse professional background that spans both academia and industry. As the CEO of ECHOTAK Audio Amplifier Company, he leads the development and marketing of high-quality audio amplifiers, driving the company’s growth and innovation. In his role as a Sales Manager for various companies, Dr. Shooshtari managed sales operations, developed marketing strategies, and played a key role in business expansion.In academia, he has served as a lecturer and project supervisor, mentoring MSc and Ph.D. students in electronic engineering with a focus on nanotechnology and microelectronics. Additionally, Dr. Shooshtari has contributed to the academic community as a guest editor for Applied Sciences, where he managed the peer review process and curated special issues in his field. He is also an active peer reviewer for several prestigious journals, including Sensors and Actuators B: Chemical and Nanotechnology, providing critical assessments of manuscripts submitted for publication.
🏆Awards and Recognitions:
Dr. Mostafa Shooshtari’s achievements have been recognized through several prestigious awards. During his Ph.D. studies at K.N. Toosi University of Technology, he was honored with the Academic Excellence Award for his outstanding academic performance. His significant contributions to research in semiconductor process engineering and gas sensor development earned him the Research Contribution Award. Additionally, his advanced research at Delft University of Technology (TU Delft) in semiconductor processes was supported by a Guest Researcher Fellowship, underscoring his expertise and impact in the field.
Publication Top Notes:
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The sensitivity enhancement of TiO2-based VOCs sensor decorated by gold at room temperature
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Improvement in gas sensitivity of carbon nanotube to volatile organic compounds by covering zinc oxide nanowire
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Star-Shaped Coils in the Transmitter Array for Receiver Rotation Tolerance in Free-Moving Wireless Power Transfer Applications
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Gas Selectivity Enhancement Using Serpentine Microchannel Shaped with Optimum Dimensions in Microfluidic-Based Gas Sensor
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Investigating Organic Vapor Sensing Properties of Composite Carbon Nanotube-Zinc Oxide Nanowire