Michela Longhi | Metamaterials | Best Researcher Award

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Dr. Michela Longhi | Metamaterials | Best Researcher Award

Researcher, Niccolò Cusano University, Italy

🌟 Michela Longhi is an accomplished Italian researcher and professor specializing in electromagnetic materials and wireless systems technologies. With a passion for innovation, Michela holds leadership roles as an Associate Editor for Nonlinear Engineering and founding member of URSI Women in Radio Science. Her dynamic career spans academia, industry, and international collaborations. 🌍

Publication Profile

scopus

Education🎓

PhD in Engineering (European Label), University of Rome “Tor Vergata,” 2015–2018, focusing on pervasive electromagnetics. International PhD Fellowship, ETH Zurich, 2017–2018, specializing in autonomous robotic systems. Research Fellowship, CNR IEIIT, Politecnico di Milano, 2015, focused on neuromodulation. Experiments at ESRF, 2015, Grenoble, France, studying liquid crystal properties. Trainee Period, ESA ESTEC, 2014, designing satellite components.

Experience👩‍💻

Associate Editor, Nonlinear Engineering Journal, 2023–present. Postdoctoral Researcher & Professor, Niccolò Cusano University, 2021–present, focusing on wireless and exoskeleton technologies. R&D Engineer, Microwave Vision Group, 2019–2021, specializing in RF and antenna design. R&D Engineer, IDEA, 2019, working on IoT and machine learning solutions. Intern, ESA, 2014, contributing to satellite technology innovation.

Awards and Honors🏆

European PhD Label, University of Rome “Tor Vergata,” for outstanding academic research. Founding Member, URSI Women in Radio Science, advocating for gender diversity in STEM. Key Contributor, ESA Internship, for innovative satellite component design. Editor Role, Nonlinear Engineering Journal, showcasing leadership in scientific publishing.

Research Focus🌟

Electromagnetic Materials: Advancing artificial materials for wireless and exoskeleton applications. Wireless Technologies: Developing antenna systems for 5G, aerospace, and automotive industries. Robotics & IoT: Innovating autonomous systems for smart cities and precise agriculture. Neuromodulation: Studying electromagnetic fields for health and well-being applications. Satellite Systems: Designing compact and efficient satellite components.

Publications:

“Time-Varying Metasurfaces for Efficient Surface-Wave Coupling to Radiation and Frequency Conversion”

Publication: Laser and Photonics Reviews, 2024, 18(12), 2400315

Details: The paper discusses the use of time-varying metasurfaces to optimize surface-wave coupling and enable efficient frequency conversion.

“Overcoming limitations of passive invisible antennas through bianisotropic nonreciprocal mantle cloaks”

Publication: Physical Review Applied, 2024, 21(6), 064045

Details: Explores advancements in antenna invisibility using bianisotropic and nonreciprocal technologies for mantle cloaking.

“A Statistical Approach for Robust Metasurfaces and Metasurface-Based RIS Engineering”

Publication: IEEE Transactions on Antennas and Propagation, 2024, 72(6), pp. 5402–5407

Details: Proposes statistical methods to improve the reliability of metasurfaces in reconfigurable intelligent surfaces (RIS).

“Design and Characterization of Line-Waves Waveguides for Microwave Applications”

Publication: IEEE Open Journal of Antennas and Propagation, 2024

Details: Focuses on designing waveguides leveraging line-waves for microwave technology.

“Enhancing Performance and Versatility of Wire Antennas with Metasurface Covers”

Event: ICEAA, 2024

Details: Investigates how metasurface covers can improve wire antennas’ functionality.

“Metasurface Dome in a Semicircular Configuration for Beamforming Applications”

Event: Metamaterials 2024

Details: Discusses semicircular metasurface domes tailored for beamforming.

“Temporal Interfaces in Time-Modulated Metasurface for the Excitation of Space-Time Wave Packets”

Event: Metamaterials 2024

Details: Explores time-modulated metasurfaces to create space-time wave packets.

“Reflecting and Transmitting Metasurfaces for Composite Vortex Generation”

Event: Metamaterials 2024

Details: Focuses on metasurfaces capable of generating composite vortices through reflection and transmission.

“Design of Self-Reconfigurable Huygens Metasurfaces for Antenna Applications”

Event: Metamaterials 2024

Details: Presents Huygens metasurfaces with self-reconfigurable capabilities for antenna systems.

“Metasurfaces Aided Signal Processing for Smart Electromagnetic Environments”

Event: Metamaterials 2024

Details: Covers how metasurfaces can enhance signal processing in smart electromagnetic settings.

 

Conclusion

Michela Longhi is a highly qualified candidate for the Best Researcher Award, with her interdisciplinary expertise, leadership in women’s empowerment initiatives, and dedication to advancing engineering and science. By emphasizing her research output, global collaboration, and project leadership, she could further cement her standing as a frontrunner for this accolade. Her achievements align with the spirit of the award, celebrating innovation and excellence in research.

Vesna Tomašić | Photocatalysis | Best Researcher Award

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Prof. Dr. Vesna Tomašić | Photocatalysis | Best Researcher Award

Prof,  University of Zagreb, Faculty of Chemical Engineering and Technology, Croatia 

Vesna Tomašić is a full professor at the Faculty of Chemical Engineering and Technology, University of Zagreb, specializing in chemical reaction engineering and catalysis. Since earning her doctorate in 1999, she has held key academic and administrative positions, including head of the doctoral program in Chemical Engineering. She has mentored numerous students and supervised several international collaborations, contributing significantly to chemical engineering advancements in Croatia and abroad. Known for her dedication to environmental protection technologies, particularly air pollution abatement, her work has earned her prestigious national and international recognitions. Tomašić actively participates in global scientific communities, furthering research in catalyst development and reactor optimization. 🧪🌍

Profile

scholar

Education 🎓

1999: Ph.D. in Chemical Engineering, Faculty of Chemical Engineering and Technology, University of Zagreb1993: Master of Science in Chemical Engineering, Faculty of Chemical Engineering and Technology, University of Zagreb1990: Bachelor’s degree in Chemical Engineering Her academic journey laid a robust foundation for her expertise in catalysis, chemical reactors, and environmental protection technologies. 📘🔬

Professional Experience  🏢

2017 – Present: Full Professor in Tenure, Faculty of Chemical Engineering and Technology, University of Zagreb2011 – 2017: Full Professor2006 – 2011: Associate Professor2002 – 2006: Assistant Professor Throughout her career, Tomašić has led various departmental roles, including Vice-Dean for Teaching and Science, and served on significant scientific committees, contributing to the institution’s growth and international collaborations. 🏫👩‍🏫

Awards and Honors 🏆

2011: Special Award for Doctoral Training Quality Promotion, University of Zagreb2008: Franjo Hanaman Award for Faculty Promotion2005: Recognition for Chemical Engineering Promotion, Croatian Society of Chemical Engineers These accolades underscore her dedication to academic excellence, research mentorship, and chemical engineering advocacy. 🎖️👏

Research Focus 🔍

Her research revolves around catalytic reaction engineering, air pollution abatement, and the development of advanced oxidation technologies. Key collaborations include projects with France, China, and regional European institutions, focusing on novel catalysts for environmental sustainability. She is renowned for her work on monolithic and membrane reactors, VOC removal, and zeolite-based catalysts. 🌿🔧

📚 Publications Top Notes

State-of-the-art in the monolithic catalysts/reactors” (2006)
Comprehensive review of monolithic catalysts and reactors, focusing on their preparation, properties, and applications in various chemical processes, particularly environmental catalysis. The study highlights advantages such as low pressure drop and high mass transfer efficiency.

“Application of the monoliths in DeNOx catalysis” (2007)
This work discusses the utilization of monolithic structures in DeNOx systems for NOx removal. Emphasis is placed on their efficiency in selective catalytic reduction (SCR) processes and their potential to meet stringent environmental regulations.

“Photocatalytic oxidation of toluene in the gas phase” (2008)
The study models an annular photocatalytic reactor for toluene degradation, providing insights into the kinetics and efficiency of gas-phase photocatalytic reactions, essential for air pollution control technologies.

“Heterogena fotokataliza: osnove i primjena za obradu onečišćenog zraka” (2011)
A foundational text in Croatian on heterogeneous photocatalysis, detailing its principles and practical applications for air purification, particularly in removing volatile organic compounds (VOCs).

“Photocatalytic degradation of imidacloprid” (2021)
Focuses on the degradation of the pesticide imidacloprid in a flat-plate photoreactor under UVA and simulated solar conditions, analyzing operating parameters, reaction kinetics, and environmental implications.

“Polycyclic aromatic hydrocarbons in PM10, PM2.5 and PM1 particle fractions in an urban area” (2018)
Investigates the distribution and health impact of polycyclic aromatic hydrocarbons (PAHs) in particulate matter of different sizes, emphasizing urban air pollution monitoring and mitigation strategies.

“Catalytic reduction of NOx over Cu/ZSM-5 catalyst” (1998)
This early work explores Cu/ZSM-5 catalysts’ performance in NOx reduction, addressing challenges in developing effective catalytic systems for exhaust gas purification.

“Non-ideal flow in an annular photocatalytic reactor” (2012)
Analyzes flow dynamics in annular reactors, critical for optimizing photocatalytic processes in real-world applications by improving reaction efficiency and reactor design.

“Photocatalytic degradation of the herbicide terbuthylazine” (2015)
Examines the degradation of terbuthylazine using TiO₂/chitosan composite layers, focusing on immobilized photocatalysts for sustainable herbicide removal from water sources.

Conclusion:

Vesna Tomašić is an outstanding candidate for the Best Researcher Award due to her significant contributions in teaching, research, and mentorship. Her leadership in organizing scientific events and her recognition from prominent institutions further affirm her status as a leading expert in chemical engineering. While there are always opportunities for broader collaboration, her proven track record makes her a highly deserving nominee for this prestigious award.

Mr. Hari Mohan Meena | Chemistry and Materials Science | Best Researcher Award

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Mr. Hari Mohan Meena | Chemistry and Materials Science | Best Researcher Award

Mr. Hari Mohan Meena, Assistant Professor, university of delhi, India

🎓 Meet Mr. Hari Mohan Meena, Assistant Professor at the University of Delhi, India 🇮🇳. With a passion for Chemistry and Materials Science 🔬, Mr. Meena stands out as a leading figure in his field. His innovative research and dedication to advancing scientific knowledge have earned him the prestigious Best Researcher Award 🏆. Through his groundbreaking work, he continues to contribute significantly to the academic community, pushing the boundaries of materials science and chemistry 🌟. His commitment to excellence is truly inspiring, making him a notable recipient of this distinguished accolade 🌟📚.

Profile 😊📜

Orcid

Academic and Professional Background 🎓🏢

🌟 Mr. Hari Mohan Meena has been serving as an Assistant Professor at Delhi University since 2019. 🎓 He earned his Ph.D. from the Department of Chemistry, University of Delhi, India. 📚 His doctoral research focused on the “Isolation and Characterization of Heavy Metals and Organic Impurities From Waste Water.” 🌊🔬 This work highlights his dedication to advancing environmental chemistry and addressing water pollution challenges. 🌍💧 His ongoing research and innovations aim to create sustainable solutions for managing industrial waste and ensuring cleaner water resources. 🌿🔍

Research and Innovations 🔬

Mr. Hari Mohan Meena has made significant contributions to the field of Bio-Materials. He has authored a notable book, ISBN 978-93-8622-169-8, and published impactful research articles in esteemed journals such as Results in Engineering and the Journal of Molecular Structure (both indexed in Scopus). His research primarily focuses on innovative approaches in bio-materials, demonstrating his expertise and dedication to advancing the field. Through his publications, Mr. Meena has contributed valuable insights into the study and application of bio-materials, enhancing the scientific understanding and practical applications of this crucial area. 📚🔬

Contributions 🌟

Mr. Hari Mohan Meena’s pioneering work on biosorption technology using chitosan has significantly advanced the understanding of heavy metal removal from wastewater. His studies focus on the mechanisms of biosorption and the mathematical modeling of these processes. This research has provided valuable insights into the interaction between metal cations and the functional groups on biomasses used as biosorbents. Through his work, Mr. Meena has contributed to the development of cost-effective and efficient methods for treating heavy metal-laden wastewater, highlighting the potential of chitosan as an inexpensive biosorbent. 🌱💧🔬

Publication Top Notes 📚🔍

Adsorption and estimation of As (III) from wastewater using cross linked Chitosan-STPP nanoparticles with voltammetric analysis computrace, isotherms, and kinetic study

Preparation, Characterization of Magnetic Chitosan nanoparticles Coated with Fe3O4 Prepared by Ex-situ Co-precipitation Method