Mohammad Kazem Anvarifrard | Electrical and Electronics Engineering | Best Researcher Award

Published on by Scientific World Research Awards

Dr. Mohammad Kazem Anvarifrard | Electrical and Electronics Engineering | Best Researcher Award

University of Guilan | Iran

Professional Profile 

Education

Dr. Mohammad Kazem Anvarifard pursued his higher education with a focus on engineering sciences, culminating in a Ph.D. that equipped him with a strong foundation in nanotechnology and applied electronics. His academic training emphasized both theoretical modeling and experimental applications, allowing him to bridge advanced concepts in physics, chemistry, and engineering. During his doctoral studies, he developed an interest in nanoscale devices and their potential applications in real-world sensing technologies, particularly in the areas of environmental monitoring and biomedical detection. His academic journey was marked by rigorous coursework, hands-on laboratory experience, and research projects that laid the groundwork for his future contributions in nanodevices, biosensors, and gas sensors. This solid educational background not only nurtured his scientific curiosity but also instilled in him the ability to approach problems from an interdisciplinary perspective, combining engineering principles with innovative research strategies to advance science and technology.

Experience

Dr. Mohammad Kazem Anvarifard has been serving as a dedicated faculty member in the Department of Engineering Sciences and Computer Engineering at the University of Guilan. Over the years, he has gained substantial teaching and research experience, actively contributing to the academic and scientific community. His role extends beyond classroom instruction, as he supervises graduate students, designs curricula, and fosters research collaborations. With a focus on innovation-driven teaching, Dr. Anvarifard emphasizes practical applications of theoretical knowledge, ensuring students are prepared for industry and research challenges. His professional journey includes publishing over 60 papers in ISI-indexed journals, engaging in scientific conferences, and collaborating with fellow researchers on advancing sensor technologies. This blend of academic leadership, mentorship, and research productivity reflects his commitment to fostering the next generation of engineers and scientists while continuously contributing to the progress of engineering and nanotechnology fields.

Research Interest

Dr. Mohammad Kazem Anvarifard’s research interests center on the design, modeling, and application of nanodevices, with particular emphasis on biosensors and gas sensors. His work aims to leverage nanotechnology for developing highly sensitive, accurate, and cost-effective devices capable of detecting biological markers and environmental pollutants. This research has profound implications for healthcare diagnostics, industrial safety, and environmental sustainability. By integrating advanced nanomaterials with sensor engineering, Dr. Anvarifard explores new methodologies for enhancing detection limits and improving device reliability. His studies not only contribute to the fundamental understanding of nanodevice behavior but also translate into practical applications that address societal challenges. With a vision of interdisciplinary innovation, he connects materials science, engineering, and applied physics to create pioneering solutions. His dedication to advancing nanosensor technologies continues to position him as a leading contributor in the field of applied nanoscience and sensor development worldwide.

Award and Honor

Dr. Mohammad Kazem Anvarifard has been recognized for his significant contributions to nanotechnology and sensor research through a series of academic achievements and professional honors. With high-quality publications in ISI-indexed journals and a citation record exceeding 1000, his work has garnered respect in the global scientific community. These achievements reflect both the relevance and impact of his research in advancing nanodevices and sensor technologies. In addition to his publication success, he has been actively involved in collaborative research projects, which further highlight his commitment to international scientific progress. His recognition extends beyond academia, as his innovations hold practical potential for industry and healthcare applications. These accomplishments, combined with his ongoing contributions to teaching and mentorship, underline the recognition he has earned as an influential researcher, making him a strong candidate for prestigious awards such as the Best Researcher Award.

Publication Top Notes

Title: Improving the electrical characteristics of nanoscale triple-gate junctionless FinFET using gate oxide engineering
Authors: NB Bousari, MK Anvarifard, S Haji-Nasiri
Year: 2019
Citation: 80

Title: High ability of a reliable novel TFET-based device in detection of biomolecule specifies—A comprehensive analysis on sensing performance
Authors: MK Anvarifard, Z Ramezani, IS Amiri
Year: 2020
Citation: 53

Title: A nanoscale‐modified band energy junctionless transistor with considerable progress on the electrical and frequency issue
Authors: MK Anvarifard, Z Ramezani, IS Amiri, AM Nejad
Year: 2020
Citation: 51

Title: Proper electrostatic modulation of electric field in a reliable nano-SOI with a developed channel
Authors: MK Anvarifard, AA Orouji
Year: 2018
Citation: 48

Title: Profound analysis on sensing performance of Nanogap SiGe source DM-TFET biosensor
Authors: MK Anvarifard, Z Ramezani, IS Amiri, K Tamersit, AM Nejad
Year: 2020
Citation: 40

Title: Enhancement of a nanoscale novel Esaki tunneling diode source TFET (ETDS-TFET) for low-voltage operations
Authors: MK Anvarifard, AA Orouji
Year: 2019
Citation: 38

Title: Improvement of self-heating effect in a novel nanoscale SOI MOSFET with undoped region: a comprehensive investigation on DC and AC operations
Authors: MK Anvarifard, AA Orouji
Year: 2013
Citation: 35

Title: SOI MOSFET with an insulator region (IR-SOI): A novel device for reliable nanoscale CMOS circuits
Authors: AA Orouji, MK Anvarifard
Year: 2013
Citation: 34

Title: A novel graphene nanoribbon FET with an extra peak electric field (EFP-GNRFET) for enhancing the electrical performances
Authors: MA Eshkalak, MK Anvarifard
Year: 2017
Citation: 33

Title: Energy band adjustment in a reliable novel charge plasma SiGe source TFET to intensify the BTBT rate
Authors: MK Anvarifard, AA Orouji
Year: 2021
Citation: 32

Title: Label-free detection of DNA by a dielectric modulated armchair-graphene nanoribbon FET based biosensor in a dual-nanogap setup
Authors: MK Anvarifard, Z Ramezani, IS Amiri
Year: 2020
Citation: 32

Title: Benefitting from high-κ spacer engineering in balistic triple-gate junctionless FinFET-a full quantum study
Authors: NB Bousari, MK Anvarifard, S Haji-Nasiri
Year: 2020
Citation: 30

Conclusion

Dr. Mohammad Kazem Anvarifard exemplifies excellence in education, research, and academic service through his sustained contributions to nanodevices, biosensors, and gas sensor technologies. His robust educational background, extensive teaching and research experience, and impactful publication record demonstrate his ability to bridge theory and practice in engineering sciences. Recognized by peers for his scholarly output and international collaborations, he continues to expand the boundaries of nanotechnology applications in healthcare and environmental monitoring. With a proven track record of mentoring students and fostering innovation, Dr. Anvarifard embodies the qualities of a dedicated researcher and educator. His achievements, combined with his vision for future advancements in sensor technology, position him as an influential figure whose work will continue to make significant scientific and societal contributions. He is truly deserving of recognition as a distinguished researcher of global repute.

 

 

Balan George | Electrical and Electronics Engineering | Young Researcher Award

Published on by Scientific World Research Awards

Mr. Balan George | Electrical and Electronics Engineering | Young Researcher Award

Technical University of “Gheorghe Asachi” Iasi, Romania.

George Balan is an energetic and goal‑oriented emerging researcher and engineer from Romania. Presently pursuing a PhD in Electrical Engineering at Gheorghe Asachi Technical University of Iași, he holds a Master’s in Building Services and a Bachelor’s in Power Electronics and Electric Actuators. With hands‑on experience in system test engineering at Continental Iasi and involvement in international internships—including at Osram Continental and the University of Wisconsin Madison—George effectively bridges academic insight with industrial application. He is adept in Python, CAPL, HIL simulation, and automation testing (CANoe, CANdelaStudio), and actively gives back through leadership and volunteer roles in student engineering leagues and civic organizations. His passion for electrical systems and quality-driven innovation shines through his community engagement and his drive toward impactful scholarly contributions. With future aspirations for global collaborations and high-quality publications, George is positioning himself as a promising contributor to power systems and smart energy research

Professional Profile

ORCID Profile 

Education

George’s academic journey is rooted at Gheorghe Asachi Technical University of Iași, where he earned a Bachelor’s in Power Electronics and Electric Actuators, followed by a Master’s in Construction Installations, and is now advancing through doctoral studies in Electrical Engineering. His curriculum blends robust technical foundations—electrical design, energy conversion, automation—with emerging topics like smart infrastructure and system integration. Coursework and projects involved simulation in DIALux Evo and E‑Plan, alongside hands-on use of CAD tools and power system design software. This multidisciplinary training has given him a broad yet detailed understanding of both theoretical and applied branches of electrical engineering, positioning him well to tackle complex research challenges in modern power systems and automation landscapes.

Experience

George serves as a System Test Engineer at Continental Iasi, where he leads automation testing, hardware-in-the-loop (HIL) simulation, and test case development using Python, CAPL, CANoe, and CANdelaStudio. His role emphasizes speeding up validation cycles, debugging automated test frameworks, and ensuring system quality. Prior to this, he gained valuable exposure as an internship tester at Osram Continental Iasi, where he contributed to simulation setups and automation pipelines. He also completed a practicum and participated in a Work & Travel program in the United States, refining intercultural collaboration and engineering skills. His work sits at the interface of software-driven testing and sophisticated electrical systems, demonstrating high adaptability and professional growth within global automotive engineering contexts.

Research Interest

George’s research interests span power electronics, electrical system testing, system-level automation, and smart-grid energy integration. He is especially focused on HIL simulation frameworks, automated validation of electric actuators and power converters, and optimized test methodologies for CAN-based communication systems. His technical skills include Python‑based test scripting, CAPL logic design, and use of DIALux and CAD tools for electrical layout simulations. George is exploring ways to merge digital twins, predictive maintenance, and automated testing to improve reliability and efficiency of power-electronic systems in transport and building services. He is driven by the vision of merging industrial-grade validation standards with innovative academic insights to shape safer, greener smart energy solutions.

Award and Honor

Although specific scholarships or academic honors were not explicitly listed, George’s trajectory reflects recognition through competitive positions: selection as a PhD researcher in a rigorous engineering program, acceptance into innovative internships, and selection for international placements like Work & Travel in the USA. His active volunteer involvement—spanning technology student leagues, the Youth Council of Romania, Save the Children, and Red Cross—also underscores leadership and social commitment. These roles indicate both peer recognition and trust in his mentoring, organizational capabilities, and community impact. As he continues building his scholarly profile toward peer-reviewed contributions and research collaborations, these foundational achievements signal award-worthiness and form a strong basis for future honors

Publication Top Notes

Title: A Perspective on Software‑in‑the‑Loop and Hardware‑in‑the‑Loop Within Digital Twin Frameworks for Automotive Lighting Systems
Authors: George Balan; Philipp Neninger; Enrique Ruiz Zúñiga; Elena Serea; Dorin‑Dumitru Lucache; Alexandru Sălceanu
Year: 2025

Conclusion

George Balan embodies the spirit of a future-focused researcher and engineer, blending academic rigor, real-world industrial experience, and heartfelt community involvement. He is steadily crafting a portfolio of technically grounded contributions in power electronics, test automation, and smart energy infrastructure. His ability to work collaboratively across cultures and domains—from automotive system testing to volunteer leadership—reflects maturity and versatility. With growing activity in digital twin frameworks and simulation-driven validation studies, George is poised to deliver impactful scholarly work. As he continues toward high-impact journal publications and international research collaborations, his potential for scientific leadership and societal advancement is clear. Recognizing George with the Young Researcher Award would honor his broad achievements and encourage his ascent into academic and technical excellence that benefits both the research community and society at large.