Dan Vasilache | Microfabrication | Best Paper Award

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Dr. Dan Vasilache | Microfabrication | Best Paper Award

Senior researcher at IMT-Bucharest, Romania.

Dr. Dan-Adrian Vasilache 🎓🔬 is a Senior Researcher at the National Institute for R&D in Microtechnologies (IMT) Bucharest, Romania. With expertise in microfabrication, MEMS, and RF technologies, he has contributed significantly to sensor development, 2D material processing, and semiconductor fabrication. His international experience includes research at Fondazione Bruno Kessler, Italy, where he specialized in TSV manufacturing and Cu electroplating. Dr. Vasilache has led multiple European projects, pioneering advancements in MEMS technology. As a former Clean Room Head and Technical Director, he has played a crucial role in microtechnology innovation, collaborating with global institutions and industries. 🌍💡

Professional Profile:

ORCID Profile

Education & Experience

📚 Education:

  • 🎓 Ph.D. in Technologies for MEMS Structures – Politehnica University, Bucharest (2004–2011)
  • 🎓 M.Sc. in Atomic and Molecular Physics – University of Bucharest, Faculty of Physics (1990–1995)

💼 Professional Experience:

  • 🏢 Senior Researcher (2013–Present) – IMT Bucharest
  • 🏢 Senior Researcher (2010–2012) – Fondazione Bruno Kessler, Italy
    • Developed Cu electroplating and bonding processes for RF applications
  • 🏢 Researcher & Senior Researcher (1995–2009) – IMT Bucharest
    • Worked on MEMS, thin films, and semiconductor processing
  • 🏢 Administrative Roles:
    • Clean Room Head (2006–2008, 2017–2018)
    • Technical Director (2018–2020)

Professional Development

Dr. Vasilache has actively contributed to microfabrication advancements through international collaborations and research projects. 🚀 His expertise spans RF MEMS, SAW sensors, and TSV manufacturing, making him a key innovator in semiconductor processing. 📡 As a principal investigator in European research programs, he has played a pivotal role in MEMS packaging, low-voltage switch structures, and nanoelectronics. 🏆 His leadership in clean room operations and microtechnology R&D has driven forward precision fabrication techniques. With an interdisciplinary approach, he continuously enhances micro and nano-scale device integration, pushing the boundaries of sensor technology and microelectronics. 🔬⚙️

Research Focus

Dr. Vasilache’s research is centered on Micro and Nano Fabrication for MEMS & RF Applications. 🔍 He specializes in RF MEMS devices, surface acoustic wave (SAW) sensors, and semiconductor thin-film technologies. 📡 His work in microfabrication includes photolithography, dry/wet etching, and electroplating for high-precision devices. 🏭 With expertise in 2D materials, he contributes to the next generation of nanoelectronics and sensor technologies. 🌍 His research also covers through-silicon via (TSV) integration, enhancing MEMS performance in aerospace, automotive, and telecommunications. 🚀 His contributions drive technological advancements in flexible electronics and high-frequency MEMS applications. 📶💡

Awards & Honors

🏆 Anadolu University Article Performance Awards (2014–2020)
🏆 ESA Project Leadership Recognition (2014–2017)
🏆 Best Researcher Award – IMT Bucharest (2018)
🏆 Excellence in MEMS Innovation – European MEMS Summit (2020)
🏆 Horizon Europe Grant Awardee (2022–2025)
🏆 Recognition for Clean Room Management Excellence – IMT (2017)

Publication Top Notes

  1. Interaction of Acoustic Waves With Spin Waves Using a GHz Operating GaN/Si SAW Device With a Ni/NiFeSi Layer Between Its IDTs

    • 📅 Year: 2025
    • Authors: Ioana Zdru, Florin Ciubotaru, Claudia Nastase, Andrei Florescu, Alexandre Abbass Hamadeh, Moritz Geilen, Alexandra Nicoloiu, George Boldeiu, Dan Vasilache, Sergiu Iordanescu et al.
    • 🔗 DOI: 10.1109/TUFFC.2024.3463731

  2. High Q GaN/SiC-Based SAW Resonators for Humidity Sensor Applications

    • 📅 Year: 2025
    • Authors: Dan Vasilache, Claudia Nastase, George Boldeiu, Monica Nedelcu, Catalin Parvulescu, Adrian Dinescu, Alexandru Muller
    • 🔗 DOI: 10.3390/mi16020150

  3. Demonstration of Microwave Harvesting Through Pyroelectricity in Cryogenic Conditions: A Quantum-to-Experimental Approach

    • 📅 Year: 2024
    • Authors: M. Aldrigo, M. Dragoman, A. Dinescu, D. Vasilache, S. Iordanescu, L. A. Dinu, D. Dragoman, E. Laudadio, E. Pavoni, L. Pierantoni et al.
    • 🔗 DOI: 10.1109/LMWT.2024.3391214

  4. Fast Method for the Assessment of SRR or ELC-Based Planar Filters: Numerical Analysis and Experiments

    • 📅 Year: 2023
    • Authors: M. Aldrigo, L. Zappelli, A. Cismaru, M. Dragoman, S. Iordanescu, D. Mladenovic, C. Parvulescu, D. Vasilache, C. H. Joseph, D. Mencarelli et al.
    • 🔗 DOI: 10.1109/ACCESS.2023.3296804

  5. Harvesting Microwave Energy Using Pyroelectricity of Nanostructured Graphene/Zirconium-Doped Hafnium Oxide Ferroelectric Heterostructures

    • 📅 Year: 2023
    • Authors: Mircea Dragoman, Martino Aldrigo, Adrian Dinescu, Dan Vasilache, Sergiu Iordanescu, Daniela Dragoman, Emiliano Laudadio, Eleonora Pavoni
    • 🔗 DOI: 10.1088/1361-6528/acbcd9

  6. Nanomaterials and Devices for Harvesting Ambient Electromagnetic Waves

    • 📅 Year: 2023
    • Authors: Mircea Dragoman, Martino Aldrigo, Adrian Dinescu, Dan Vasilache, Sergiu Iordanescu, Daniela Dragoman
    • 🔗 DOI: 10.3390/nano13030595

  7. Multilevel Spiral Axicon for High-Order Bessel–Gauss Beams Generation

    • 📅 Year: 2023
    • Authors: Rebeca Tudor, George Andrei Bulzan, Mihai Kusko, Cristian Kusko, Viorel Avramescu, Dan Vasilache, Raluca Gavrila
    • 🔗 DOI: 10.3390/nano13030579

  8. A GHz Operating CMOS Compatible ScAlN Based SAW Resonator Used for Surface Acoustic Waves/Spin Waves Coupling

    • 📅 Year: 2022
    • Authors: I. Zdru, C. Nastase, L. N. Hess, F. Ciubotaru, A. Nicoloiu, D. Vasilache, M. Dekkers, M. Geilen, C. Ciornei, G. Boldeiu et al.
    • 🔗 DOI: 10.1109/LED.2022.3196101

  9. MoS₂ Radio: Detecting Radio Waves With a Two-Dimensional Transition Metal Dichalcogenide Semiconductor

    • 📅 Year: 2020
    • Authors: Mircea Dragoman, Martino Aldrigo, James Connolly, Ian M Povey, Sergiu Iordanescu, Adrian Dinescu, Dan Vasilache, Mircea Modreanu
    • 🔗 DOI: 10.1088/1361-6528/ab5123

  10. Manufacturing and DC Characterization of Conductive Through Wafer Via for MEMS Applications

  • 📅 Year: 2019
  • Authors: Dan Vasilache, Sergiu Iordanescu, Andrei Avram, Marian Popescu, Viorel Avramescu
  • 🔗 DOI: 10.1088/1361-6641/aafe9c

Reza Hadjiaghaie Vafaie | Nanosensors | Best Researcher Award

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Assoc. Prof. Dr. Reza Hadjiaghaie Vafaie | Nanosensors and Actuators | Best Researcher Award

Head of department at University of Bonab, Iran.

Dr. Reza Hadjiaghaie Vafaie, born on August 11, 1985, in Tabriz, Iran, is a distinguished researcher in Micro-Electro-Mechanical Systems (MEMS), microfluidics, biosensors, and semiconductor technologies. He has made significant contributions to biomedical applications, deep learning, and sensor technology, earning recognition for his pioneering work in experimental and numerical modeling. With extensive academic achievements, numerous high-impact ISI journal publications, and collaborations with leading international institutions, he has established himself as a leading researcher in his field. His interdisciplinary expertise spans from electronic circuit design to point-of-care (POC) biosensors and advanced semiconductor materials. His career includes global research exposure, particularly at EPFL, Switzerland, where he worked on micro-nano machining technologies. His research has direct applications in healthcare, environmental monitoring, and industrial automation, demonstrating innovation and impact.

Professional Profile:

Education

Dr. Vafaie’s educational journey reflects excellence and dedication to scientific research. He earned his Ph.D. in Electronics (Microelectronics) from Sahand University of Technology (SUT), Tabriz, Iran (2012-2016), with honors, under the guidance of distinguished professors and an international research stint at EPFL, Switzerland. His dissertation focused on AC Electrothermal-based micro-mixers, micro-pumps, and concentration processes for biomedical applications, receiving a top grade (19.75/20). His M.Sc. in Electronics (Microelectronics) from SUT (2009-2011) included a thesis on electroosmotic micromixers for microfluidic applications, where he graduated with honors (GPA: 17.85/20). His B.Sc. in Electrical Engineering from Azad University of Tabriz laid the foundation for his expertise in data transfer systems using microcontrollers, where he achieved a GPA of 16.07/20. His strong academic background has been instrumental in shaping his cutting-edge research in MEMS and biosensors.

Professional Experience

Dr. Vafaie has a robust academic career, currently serving as an Associate Professor at the University of Bonab, East Azerbaijan, Iran (2021–present). Prior to this, he was an Assistant Professor (2016-2021) at the same institution, where he played a pivotal role in advancing research in MEMS, biosensors, and microfluidic technologies. His professional experience also includes an exchange research program at EPFL, Switzerland, where he conducted experimental work at the MicroNano Machining Center (CMi), LMIS1 & 4. His work has led to innovative contributions in semiconductor fabrication, microfluidic sensor design, and biomedical device integration. Beyond academia, Dr. Vafaie has been involved in consulting projects on sensor technology and has mentored students in cutting-edge interdisciplinary research, fostering the next generation of researchers in electronics and biomedical engineering.

Research Interests

Dr. Vafaie’s research interests focus on Microsystem and IC design, Micro-Electro-Mechanical System (MEMS) sensors, bio-MEMS, microfluidics, biosensors, electrokinetics, and semiconductor technology. His work integrates deep learning and fuzzy control into sensor-network applications. His research extends to point-of-care (POC) devices, where he develops innovative portable and rapid-detection biosensors for medical diagnostics and environmental monitoring. He is also engaged in numerical modeling and electrowetting technologies, contributing to next-generation lab-on-a-chip devices. His interdisciplinary approach merges electronics, biomedical engineering, and AI, making significant advancements in smart healthcare solutions, pollution monitoring, and microfabrication techniques. His work has practical implications in medical imaging, chemical detection, and MEMS-based wearable technology.

Research Skills

Dr. Vafaie possesses exceptional research skills in MEMS device fabrication, semiconductor processing, biosensor development, and microfluidic system design. His expertise includes photoacoustic detection, lab-on-a-chip systems, electroosmotic micromixers, and AC electrothermal actuation. He has strong numerical modeling capabilities, applying finite element analysis (FEA) and computational fluid dynamics (CFD) to optimize MEMS designs. His proficiency in deep learning and fuzzy logic control has enhanced sensor efficiency and real-time data analysis in biomedical applications. Additionally, his skills in nanofabrication techniques, polymer-based MEMS manufacturing, and PCB-based biosensor development have resulted in cutting-edge solutions for point-of-care diagnostics and environmental sensing. His interdisciplinary research blends AI-driven optimization and physical experimentation, leading to high-impact innovations in smart medical and industrial devices.

Awards and Honors

Dr. Vafaie has received several prestigious awards and honors, reflecting his excellence in research and academic achievements. He was awarded a scholarship from the Iranian Ministry of Science to conduct research at EPFL, Switzerland, recognizing his contributions to micro-nano machining technologies. His Ph.D. and master’s theses both received top grades and academic distinctions, demonstrating his outstanding research performance. He has been recognized for high-impact publications in leading ISI-indexed journals, including Biosensors and Bioelectronics and Photonics, with some articles featuring in top-tier journals with an impact factor above 10. Additionally, he has played a key role in international research collaborations, further strengthening his academic reputation.

Conclusion

Dr. Reza Hadjiaghaie Vafaie is a highly qualified candidate for the Best Researcher Award, with a proven track record of scientific excellence, international collaborations, and impactful research. His pioneering work in MEMS, biosensors, semiconductor technology, and deep learning applications has significantly advanced the field of microelectronics and biomedical engineering. His exceptional academic background, research leadership, and high-impact publications establish him as a leading scientist in his domain. To further elevate his career, securing major research grants, expanding industry collaborations, and taking on leadership roles in large-scale research projects would solidify his standing as a top-tier researcher globally. With his groundbreaking contributions and interdisciplinary expertise, he is undoubtedly a strong contender for the Best Researcher Award, making substantial advancements in smart healthcare, environmental monitoring, and MEMS technology.

Publication Top Notes

  1. Synthesis of novel direct Z-scheme heterojunction photocatalyst from WO3 nanoplates and SrTiO3 nanoparticles with abundant oxygen vacancies
    Authors: G. Hosseinzadeh, S. M. Sajjadi, L. Mostafa, A. Yousefi, R. H. Vafaie, …
    Citations: 85
    Year: 2023
  2. A new type-3 fuzzy predictive controller for MEMS gyroscopes
    Authors: R. H. Vafaie, A. Mohammadzadeh, M. J. Piran
    Citations: 53
    Year: 2021
  3. Bi‐directional ACET micropump for on‐chip biological applications
    Authors: R. H. Vafaie, H. B. Ghavifekr, H. Van Lintel, J. Brugger, P. Renaud
    Citations: 51
    Year: 2016
  4. Designing a miniaturized photoacoustic sensor for detecting hydrogen gas
    Authors: R. H. Vafaie, S. Nojavan, K. Jermsittiparsert
    Citations: 32
    Year: 2020
  5. An electroosmotically-driven micromixer modified for high miniaturized microchannels using surface micromachining
    Authors: R. H. Vafaie, M. Mehdipoor, A. Pourmand, E. Poorreza, H. B. Ghavifekr
    Citations: 27
    Year: 2013
  6. A type-2 fuzzy control for active/reactive power control and energy storage management
    Authors: H. Mohammadi Moghadam, A. Mohammadzadeh, R. Hadjiaghaie Vafaie, …
    Citations: 21
    Year: 2022
  7. Optimization of ACEK-enhanced, PCB-based biosensor for highly sensitive and rapid detection of bisphenol A in low-resource settings
    Authors: H. Mirzajani, C. Cheng, R. H. Vafaie, J. Wu, J. Chen, S. Eda, E. N. Aghdam, …
    Citations: 21
    Year: 2022
  8. Enhancement of mechanical resonant modes by miniaturization of frequency tunable MEMS-enabled microstrip patch antenna
    Authors: H. Mirzajani, H. Badri Ghavifekr, E. Najafi Aghdam, H. Demaghsi, …
    Citations: 19
    Year: 2015
  9. Configurable ACET micro-manipulator for high conductive mediums by using a novel electrode engineering
    Authors: R. H. Vafaie, H. B. Ghavifekr
    Citations: 18
    Year: 2017
  10. A deep learned fuzzy control for inertial sensing: Micro electro mechanical systems
    Authors: A. Mohammadzadeh, R. H. Vafaie
    Citations: 17
    Year: 2021
  11. Microseparator based on 4-phase travelling wave dielectrophoresis for lab-on-a-chip applications
    Authors: E. Poorreza, R. H. Vafaie, M. Mehdipoor, A. Pourmand, H. B. Ghavifekr
    Citations: 14
    Year: 2013
  12. AC electrothermal actuation mechanism for on-chip mixing of high ionic strength fluids
    Authors: M. Ghandchi, R. H. Vafaie
    Citations: 13
    Year: 2017
  13. A novel four-phase AC electroosmotic micropump for lab-on-a-chip applications
    Authors: M. Mehdipoor, R. H. Vafaie, A. Pourmand, E. Poorreza, H. B. Ghavifekr
    Citations: 13
    Year: 2012
  14. Numerical simulation of mixing process in tortuous microchannel
    Authors: R. H. Vafaie, M. Mahdipour, H. Mirzajani, H. B. Ghavifekr
    Citations: 11
    Year: 2013
  15. A novel miniaturized electroosmotically-driven micromixer modified by surface channel technology
    Authors: R. H. Vafaie, M. Mehdipour, A. Pourmand, H. B. Ghavifekr
    Citations: 9
    Year: 2012
  16. A novel miniaturized travelling wave dielectrophoresis microseparator for lab-on-a-chip applications
    Authors: E. Poorreza, R. H. Vafaie, M. Mehdipoor, A. Pourmand, H. B. Ghavifekr
    Citations: 8
    Year: 2012
  17. A modified electroosmotic micromixer for highly miniaturized microchannels
    Authors: R. H. Vafaie, M. Mehdipoor, A. Pourmand, E. Poorreza, H. B. Ghavifekr
    Citations: 8
    Year: 2012
  18. A high-efficiency micromixing effect by pulsed AC electrothermal flow
    Authors: R. Hadjiaghaie Vafaie
    Citations: 7
    Year: 2018
  19. A new miniaturized traveling-wave electro-osmotic micro-pump by low velocity of fluid for lab-on-a-chip application
    Authors: M. Mehdipour, R. H. Vafaie, A. Pourmand, H. B. Ghavifekr
    Citations: 6
    Year: 2012
  20. Photoacoustic Detection of Pollutants Emitted by Transportation System for Use in Automotive Industry
    Authors: R. H. Vafaie, R. S. Pour, A. Mohammadzadeh, J. H. Asad, A. Mosavi
    Citations: 5
    Year: 2022

Prof. THOMAS MAVROMOUSTAKOS | Computational Nanotechnology | Outstanding Scientist Award

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Prof. THOMAS MAVROMOUSTAKOS | Computational Nanotechnology | Outstanding Scientist Award

Prof. THOMAS MAVROMOUSTAKOS , National and Kapodistrian University of Athens , Greece

Dr. Thomas Mavromoustakos is a distinguished chemist renowned for his groundbreaking contributions to medicinal chemistry and spectroscopy. With a Bachelor’s degree from the Chemistry Department at NKUA and MSc/PhD in Medicinal Chemistry from the University of Connecticut, USA, he has focused his research on designing novel drugs targeting various diseases, employing a wide array of physical chemical methodologies. His expertise spans Solid State Nuclear Magnetic Resonance, High Resolution Nuclear Magnetic Resonance, X-ray diffraction, Raman Spectroscopy, and more. Dr. Mavromoustakos is also involved in authenticity studies of beverages and foods, utilizing advanced spectroscopic techniques. He has an extensive teaching experience, offering courses and labs in organic chemistry, molecular modeling, and NMR spectroscopy at various academic institutions

Professional Profile:

Google scholar

Orcid

Scopus

🎓 Education:

Dr. Thomas Mavromoustakos completed his Bachelor’s degree in Chemistry from NKUA in 1980, followed by pursuing an MSc in Medicinal Chemistry at the University of Connecticut, USA, in 1988. Continuing his academic journey, he attained a PhD in Medicinal Chemistry from the University of Connecticut, USA, in 1990. These educational milestones laid a solid foundation for his distinguished career in research and academia, enabling him to specialize in the design of novel drugs and contribute significantly to the fields of chemistry and pharmacology

🔬 Research Focus:

Dr. Mavromoustakos specializes in designing novel drugs for various diseases, employing physical chemical methodologies such as Solid State Nuclear Magnetic Resonance, High Resolution Nuclear Magnetic Resonance, Conformational Analysis, Differential Scanning Calorimetry, X-ray diffraction, Raman Spectroscopy, 3D-QSAR studies, and Docking studies.

👨‍🏫 Teaching Experience:

Dr. Mavromoustakos has taught numerous courses and laboratory sessions in various institutions, covering topics such as Molecular Modeling, Organic Chemistry, Polymers, Oenology, Food Chemistry, and Pharmacology.With his expertise and dedication, Dr. Mavromoustakos has made significant contributions to the fields of chemistry and pharmacology, shaping the future of drug design and analysis.

Publication top Notes: