Giurgi Gavril-Ionel | Photovoltaic Cells | Research Excellence Award

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Dr. Giurgi Gavril-Ionel | Photovoltaic Cells | Research Excellence Award

National Institute for Research and Development of Isotopic and Molecular Technologies, Romania

Dr. Giurgi Gavril-Ionel is a researcher specializing in chemistry and renewable energy technologies, with a strong focus on the design, fabrication, and characterization of organic solar cells. He holds advanced academic qualifications in chemistry and electronics engineering, complemented by a solid foundation in applied electronics. He currently serves as a Research Assistant, contributing to European-funded projects aimed at advancing organic solar cell technologies through experimental development, system modeling, and prototype optimization. His work includes designing flexible solar cell devices, conducting performance and stability testing, and integrating low-power electronic systems for practical applications. He has expertise in simulation tools such as MATLAB/Simulink to predict device behavior and enhance system efficiency. In addition to his research role, he has prior experience as a maintenance engineer and electronics technician, providing technical support for IT systems and electronic equipment. He has demonstrated leadership through participation in entrepreneurial programs and achieving recognition in innovation-focused competitions. He has also presented his research at international conferences, highlighting advancements in photovoltaic systems and organic solar cell technologies.

Citation Metrics (Scopus)

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Citations
113

Documents
12

h-index
4

Citations

Documents

h-index

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Featured Publications

 

Maija Luukka | Green Transition | Research Excellence Award

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El Mokhtar El Hafidi | Environmental Science | Best Researcher Award

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Dr. El Mokhtar El Hafidi | Environmental Science | Best Researcher Award

Dr. El Mokhtar El Hafidi | Chouaïb Doukkali University | Morocco

Dr. El Mokhtar El Hafidi is a Civil Protection Captain and researcher at the Laboratory of Engineering Sciences for Energy (LabSIPE), Chouaïb Doukkali University, El Jadida, Morocco, specializing in renewable energy applications for wastewater recovery, sustainable materials, and environmental risk management. He holds a Ph.D. in Materials Physics and Energy Engineering and has led and contributed to six major research projects focused on renewable energy integration, eco-efficient wastewater treatment, and the valorization of industrial by-products for civil engineering. Dr. El Hafidi has published 18 peer-reviewed scientific papers in indexed journals and delivered 12 oral communications at international conferences, reflecting his active engagement in the scientific community. His research impact is evidenced by 236+ Google Scholar citations and an h-index of 8, supported by collaborations with Moroccan academic institutions and the Jorf Lasfar thermal power plant. He has developed innovative processes using fly ash, metallic slags, and sludge to produce eco-efficient construction materials, advancing circular economy and low-carbon development strategies. His solar-powered desalination and sustainable distillation systems contribute to improving water recovery efficiency in resource-constrained environments. He holds patent filings on wastewater reuse using metallurgical by-products (N°70757–14/02/2025) and their application in marine civil engineering structures. Dr. El Hafidi serves as a reviewer for leading journals including Desalination, MDPI journals, International Journal of Environmental Research, Journal of Water Process Engineering, Sustainable Chemistry – One World, and Water, Air & Soil Pollution. A member of the Moroccan Association of Environmental Engineering, he actively promotes scientific innovation aligned with the UN Sustainable Development Goals, particularly clean water, affordable energy, responsible resource use, and climate adaptation. His work demonstrates a strong link between laboratory research and practical field solutions to support Morocco’s ecological transition and environmental sustainability.

Profiles: Scopus | Orcid | Google Scholar | Linkedin

Featured Publications

El Hafidi, E. M., Mortadi, A., Chahid, E. G., & Laasri, S. (2025). Effect of trichloroisocyanuric acid concentration on the electrical properties of swimming pool water. Scientific Reports, 15, Article 80521.

Mortadi, A., Tabbai, Y., El Hafidi, E., Nasrellah, H., Chahid, E., Monkade, M., & El Moznine, R. (2025). Investigating temperature effects on perovskite solar cell performance via SCAPS-1D and impedance spectroscopy. Cleaner Engineering and Technology, 17, 100876.

Mortadi, A., El Hafidi, E., Labjar, N., Nasrellah, H., Chahid, E., Monkade, M., & El Moznine, R. (2025). Monitoring the coagulation mechanism and aluminum sulfate impact on textile wastewater treatment: Insights from impedance spectroscopy. Journal of the Indian Chemical Society, 102, 101501.

Mortadi, A., El Hafidi, E. M., Sadiqi, A., Nasrellah, H., Laasri, S., Chahid, E. G., & El Moznine, R. (2025). Thickness-dependent performance optimization of lead-free FASnI₃ perovskite solar cells: Interplay between optical absorption and charge recombination. Hybrid Advances, 2, 100528.

Mghaiouini, R., Mortadi, A., El Hafidi, E. M., Chahid, E. G., El Bouayadi, R., Benaissa, M., & Labrim, H. (2025, October). Optimizing diammonium phosphate solubility in fertigation using magnetized water: A Taguchi approach. Next Materials, 4, 101193.

El Hafidi, E. M., Mortadi, A., Lizoul, B., Chahid, E. G., & Laasri, S. (2025, October 15). Valorization of industrial wastewater treatment sludge in eco-friendly mortars: Enhancing thermal insulation and sustainability. Recycling, 10(5), 192.

El Hafidi, E. M., Mortadi, A., Lizoul, B., Chahid, E. G., & Laasri, S. (2025, October 2). Valorization of industrial wastewater treatment sludge in eco-friendly mortars: Enhancing thermal insulation and sustainability (Preprint). Preprints.org.

Guillermo Escriva-Escriva | Energy | Excellence in Research Award

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Dr. Guillermo Escriva-Escriva | Energy | Excellence in Research Award

Dr. Guillermo Escriva-Escriva | Polytechnic University of Valencia | Spain

Dr. Guillermo Escriva-Escriva is a dedicated academic and researcher in the Department of Electrical Engineering at the Polytechnic University of Valencia. After completing his degree in Electrical Engineering at his alma mater, he gained valuable industry experience as an installation director in the construction sector. He later transitioned to academia, where he has established a strong presence through teaching and research. His career reflects a deep commitment to advancing energy efficiency and power systems. His path embodies a seamless blend of practical expertise and scholarly rigor, positioning him as a respected professor and mentor within his university community.

Profiles

Scopus
Orcid

Education

His educational journey began at the Polytechnic University of Valencia, where he earned his engineering degree and continued toward doctoral studies in Industrial Engineering. Over the course of his academic pursuit, he engaged in rigorous training in energy systems, power quality, and renewable energy integration. His doctoral work culminated in substantial contributions to the scientific community, especially in areas essential to sustainable energy and microgrid technology. This solid foundation of knowledge underpins his pedagogical and research endeavors and informs his innovative contributions to the field of electrical engineering.

Experience

Dr. Guillermo Escriva-Escriva brings a diverse background that spans both industry and academia. Early in his career, he applied his engineering expertise to managing installations within the construction industry, gaining firsthand experience in the practical challenges of power systems. Later he transitioned to academia at his home institution, where he has held various teaching positions and progressed through ranks to become a tenured professor. His roles have encompassed a wide range of responsibilities, including curriculum development, mentoring, and leadership in research projects. This blend of practical and academic experience enriches his teaching and informs his contributions to engineering education.

Research Interest

His primary research interests focus on energy efficiency, renewable energy integration, microgrid systems, and power system quality. He explores how distributed energy resources can be managed under varying conditions, optimizing both performance and reliability. An ongoing commitment to sustainable power solutions drives his involvement in developing energy hubs, hybrid systems combining biogas and photovoltaic generation, and intelligent monitoring tools for residual currents and anomaly detection in consumption. His work addresses real-world energy challenges, particularly for rural or decentralized communities, where resilient power management is critical.

Award

Dr. Guillermo contributions have garnered recognition in energy research and sustainable engineering innovation. His leadership in institutional projects and his pioneering efforts in integrating renewable energies into functional microgrid infrastructures reflect his forward-thinking vision. Colleagues and peers consistently commend his ability to translate complex theoretical models into impactful applications. His dedication extends beyond research; he advances educational practices and supports energy autonomy in communities. This blend of innovation, scholarship, and societal relevance makes him a distinguished nominee for recognition in engineering and sustainability.

Publication Top Notes

Hybrid Energy Solutions for Enhancing Rural Power Reliability in the Spanish Municipality of Aras de los Olmos

Journal: Applied Sciences
Authors: Pooriya Motevakel, Carlos Roldán-Blay, Carlos Roldán-Porta, Guillermo Escrivá-Escrivá, Daniel Dasí-Crespo

Optimizing Bearing Fault Diagnosis in Rotating Electrical Machines Using Deep Learning and Frequency Domain Features

Journal: Applied Sciences
Authors: Eduardo Quiles-Cucarella, Alejandro García-Bádenas, Ignacio Agustí-Mercader, Guillermo Escrivá-Escrivá

Strategic Resource Planning for Sustainable Biogas Integration in Hybrid Renewable Energy Systems

Journal: Applied Sciences
Authors: Pooriya Motevakel, Carlos Roldán-Blay, Carlos Roldán-Porta, Guillermo Escrivá-Escrivá, Daniel Dasí-Crespo

Intelligent Residual Current Monitor Application in Hospital With Fiber Optics Using Wavelength Division Multiplexing

Journal: IEEE Access
Authors: Erwin Sutanto, Guillermo Escrivá-Escrivá, Samian Samian, Hendra Kusuma, Tri Arief Sardjono

Optimal Sizing and Design of Renewable Power Plants in Rural Microgrids Using Multi-Objective Particle Swarm Optimization and Branch and Bound Methods

Journal: Energy
Authors: Carlos Roldán-Blay, Guillermo Escrivá-Escrivá, Carlos Roldán-Porta, Daniel Dasí-Crespo

Conclusion

Dr. Guillermo stands out as an academic leader whose work bridges theoretical research and practical engineering. With roots in both the classroom and the field, he has impacted sustainable energy systems through intelligent design, rigorous scholarship, and institutional leadership. His contributions to renewable integration, microgrid resilience, and educational excellence underscore his suitability for recognition. His commitment to creating replicable and socially relevant energy solutions confirms that he is a deserving candidate for this award nomination.

Titin Trisnadewi | Energy | Best Researcher Award

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Dr. Titin Trisnadewi | Energy | Best Researcher Award

Dr. Titin Trisnadewi | National Research and Innovation Agency (BRIN) | Indonesia

Dr. Titin Trisnadewi, known also as Ida Ayu Nyoman, hails from Bali and has established herself as a dedicated mechanical engineer and researcher. After completing her formative education in Indonesia, she went on to earn advanced degrees in mechanical engineering before stepping into roles that span teaching, research assistance, and a post-doctoral appointment at a national research institute. Her academic journey is characterized by rigorous work in energy conversion and thermal energy storage, often through experimental development of phase change materials. Her international stints, including time spent in France and Malaysia, have enriched her perspective on global research collaboration. Today she continues contributing to innovative approaches in thermal management systems, while also lecturing and publishing in internationally respected outlets. Her work is rooted in a passionate curiosity for sustainable energy solutions and a drive to translate materials research into real-world applications.

Profile

Orcid

Education

Dr. Titin’s educational path began in Indonesia, where she completed her bachelor’s studies in mechanical engineering with a focus on thermal conductivity in nanofluids. She then advanced to master’s studies at Indonesia’s premier university, concentrating on energy conversion and the characteristics of thermal energy storage materials. Her academic diligence and scholarly focus culminated in earning her doctorate in mechanical engineering from the same institution, where her research delved deeply into phase change materials for thermal storage. Throughout this academic progression, she has sustained a single-minded commitment to understanding and improving thermal energy systems, combining experimental design with material science to tackle pressing issues in energy efficiency and sustainable temperature control. Her scholastic foundation underpins all her ongoing research and teaching endeavors.

Experience

Dr. Titin’s professional experience weaves through academic and international research environments. Early in her journey, she gained hands-on exposure with a national agency responsible for nuclear energy research in Indonesia, strengthening her experimental and engineering foundations. She then served as a research assistant at a prestigious university in France, an experience that enhanced her ability to collaborate across cultural and academic borders. Back in Indonesia, she continued in research roles at her alma mater and took on a lecturer position at a university known for its innovative pedagogy. Since mid-year she has held a post-doctoral role at a national research and innovation agency, contributing to cutting-edge investigations in thermal energy systems. Her roles are unified by a commitment to both teaching young engineers and advancing materials research for energy applications.

Research Interest

Dr. Titin’s research interests orbit around phase change materials and their use in thermal energy storage. She is deeply engaged in exploring natural waxes, sonicated graphene in oils, and other composite materials for temperature regulation in buildings, batteries, and cold-storage systems. Her work often integrates heat pipe technologies and thermal cycling experiments, aiming to improve energy efficiency through form-stable storage media. She is fascinated by the intersection of material science and sustainable energy design, particularly how latent heat storage can support intermittent renewable energy and vehicle battery systems. Her research extends to the development of wood-based and bio-derived materials for insulation and building integration. Through her studies, she seeks to bridge experimental material development and real-world applications, striving for innovations that make thermal energy storage more practical and eco-friendly.

Awards & Recognition

Her scholarly excellence and research productivity have not gone unnoticed. She has received recognition through presentations at prominent international conferences in Asia and Europe, highlighting her contributions to phase change material science and energy conversion. Her work has been featured in venues that select standout contributions for commendation and spotlighting within their symposium programs. These opportunities reflect both the innovation of her research and its resonance with energy and materials communities. While these are not traditional awards with trophies or certificates, the repeated invitations to present in high-caliber forums signal strong peer acknowledgment of her expertise and the importance of her work.

Publications Top Notes

Innovative Thermal Management System for Electric Vehicle Batteries: Phase Change Material, Heat Pipe and Heat Sink Box Integration

Journal: Heat Transfer Engineering
Authors: Mohamad Wafirul Hadi, Nandy Putra, Titin Trisnadewi; Ragil Sukarno, Andhy M. Fathoni, Nyoman Ari Bhaskara

Comparison of Phase Change Materials of Modified Soy Wax using Graphene and MAXene for Thermal Energy Storage Materials in Building

Journal: International Journal of Technology
Authors: Titin Trisnadewi, Eny Kusrini, Dwi Marta Nurjaya, Byrne Paul, Maré Thierry, Nandy Putra

Performance of Natural Wax as Phase Change Material for Intermittent Solar Energy Storage in Agricultural Drying: An Experimental Study

Journal: Solar Energy
Authors: Yohanes Gunawan, Titin Trisnadewi, Nandy Putra, Novan Akhiriyanto, Daniel Nomara Trylucky

Experimental Analysis of Natural Wax as Phase Change Material by Thermal Cycling Test Using Thermoelectric System

Journal: Journal of Energy Storage
Authors: Titin Trisnadewi, Eny Kusrini, Dwi Marta Nurjaya, Nandy Putra, Teuku Meurah Indra Mahlia

Phase Change Material (PCM) with Shaped Stabilized Method for Thermal Energy Storage: A Review

Journal: AIP Conference Proceedings
Authors: Titin Trisnadewi, Nandy Putra

Conclusion

Dr. Titin Trisnadewi stands at the convergence of experimental material science and sustainable thermal energy engineering. Her educational journey through Indonesian institutions, combined with international research collaborations and post-doctoral work, equips her with a robust foundation in phase change material innovation and application. Her experience as both researcher and lecturer exemplifies a dual strength in knowledge creation and dissemination. Through a prolific publication record across reputable journals and conferences, she has significantly contributed to advancing thermal energy storage methods suitable for buildings, vehicles, and renewable integration. Her continued work at a national innovation agency highlights her commitment to transforming laboratory discoveries into impactful real-world technologies. As she continues her career, her strategic vision for eco-friendly thermal systems promises valuable progress toward energy-efficient and sustainable solutions.

Daniel Kalús | Building envelope structures with integrated energy-active elements (active thermal protection) using renewable energy sources | Innovative Research Award – 25545

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Prof. Daniel Kalús | Building envelope structures with integrated energy-active elements (active thermal protection) using renewable energy sources | Innovative Research Award

Slovak University of Technology in Bratislava

Profile

Google Scholar

🎓 Early Academic Pursuits

Assoc. Prof. Ing. Daniel Kalús, PhD., born on May 8, 1970, in Bratislava, Slovakia, embarked on his academic journey in civil engineering with a deep commitment to the sustainable built environment. After graduating as an engineer (Ing.), he continued his academic pursuit at the Slovak University of Technology in Bratislava (STU), eventually earning his PhD. His educational foundation laid the groundwork for his lifelong dedication to energy-efficient and environmentally responsible building systems.

👨‍🏫 Professional Endeavors

Since September 1993, Prof. Kalús has served as a university lecturer at the Faculty of Civil Engineering, STU in Bratislava. In 2000, he was appointed head of the heating section at the Department of Building Services, and by 2020, he became a member of the professional committee for the "Civil Engineering" study field. His professional career has been marked by a blend of academia and field experience, including his roles as a consultant, technical representative, and project manager in various private and governmental sectors between 1995 and 2012.

🔬 Contributions and Research Focus

Prof. Kalús is a leading voice in the areas of energy saving, heating, ventilation and cooling, renewable energy sources, and combined building-energy systems. His research efforts emphasize low-energy and passive houses, energy certification, and environmental and energy audits. His pivotal role in promoting sustainable construction technologies has included the coordination of an experimental prefabricated low-energy house, demonstrating his ability to translate academic knowledge into practical innovations.

🌍 Impact and Influence

His consultancy and advisory work have significantly influenced building energy strategies in Slovakia and beyond. Institutions like the Energetické centrum Bratislava and organizations such as KOTRBATÝ D.I.Z. and ECB, s.r.o. have benefitted from his guidance in adopting green technologies. Furthermore, as a project manager at Paneláreň Vrakuňa, he led the realization of a pioneering low-energy housing prototype, showcasing his impact on the built environment.

📚 Academic Citations and Publications

While the CV does not list citation metrics or individual publications, Prof. Kalús has contributed extensively to scientific and technical literature in his field. He has published numerous works on building energy performance and heating systems, influencing both the academic community and practicing engineers.

💻 Technical Skills

His technical expertise spans across energy audits, HVAC systems, renewable energy integration, and environmental audits. He possesses practical experience with measurement and control systems, construction management, and strategic planning of energy-efficient buildings. This diverse technical portfolio underpins his multifaceted role as a teacher, consultant, and engineer.

👨‍🏫 Teaching Experience

Prof. Kalús has taught at both bachelor’s and master’s levels, covering subjects such as Building Services, Heating Systems, Energy Supply of Buildings, and Research Methods in Heating. He has mentored 117 master theses, 35 bachelor theses, and 4 PhD students to completion, with 1 current PhD student under his guidance. His academic leadership is evident in his contributions to curriculum development and mentorship of future civil engineers.

🏛️ Legacy and Future Contributions

A stalwart in sustainable construction and building energy systems, Prof. Kalús continues to shape the next generation of engineers while contributing to Slovakia’s energy transition goals. His legacy lies in the integration of academic rigor with practical sustainability, and he remains dedicated to advancing innovative and environmentally responsible building services. His ongoing research and mentoring promise to further elevate the energy performance and ecological footprint of modern infrastructure.

Selected Publications

  • Kalús, D., Straková, Z., & Kubica, M. (2021). Energy Balance of a Low Energy House with Building Structures with Active Heat Transfer Control. Periodica Polytechnica Mechanical Engineering, 65(3), 246–251. Examines Active Thermal Insulation (ATI) embedded in envelope structures for year-round energy regulation mdpi.com+10pp.bme.hu+10researchgate.net+10.

  • Kálus, D., Koudelková, D., Mučková, V., Kurčová, M., & Sokol, M. (2023). Design, Project, and Realization of a Prototype of an Energy‑efficient Prefabricated House IDA I. using Renewable Energy Sources. Periodica Polytechnica Civil Engineering, 67(1), 232–248. Describes the IDA I prototype house using solar roofs, ground heat storage, and active thermal protection ojs.cvut.cz+4pp.bme.hu+4researchgate.net+4.

  • Kalús, D., & Mučková, V. (2021). Energy, Economic and Environmental Assessment of Thermal Barrier Application in Building Envelope Structures. Coatings, 11(12):1538. Provides a detailed lifecycle evaluation of using thermal barriers in building envelopes researchgate.net+2mdpi.com+2mdpi.com+2.

  • Kalús, D., Koudelková, D., Mučková, V., Sokol, M., Kurčová, M., & Šťastný, P. (2022). Parametric Study of the Energy Potential of a Building’s Envelope with Integrated Energy‑Active Elements. Acta Polytechnica, 62, 595–? (2022). Offers a simulation-based analysis of building envelope variants incorporating active elements mdpi.com+6ojs.cvut.cz+6researchgate.net+6.

  • Kalús, D., Gašparík, J., Janík, P., & Kubica, M. (2021). Innovative Building Technology Implemented into Facades with Active Thermal Protection. Sustainability, 13(8):4438. Discusses advanced facade systems using active thermal insulation panels pp.bme.hu+4researchgate.net+4mdpi.com+4.

  • Kalús, D., Mučková, V., Koudelková, D., Kurčová, M., & Sokol, M. (2022). Contribution to the Research and Development of Innovative Building Components with Embedded Energy‑Active Elements. Coatings, 12(7):1021. Presents the development of innovative ATP façade panels, part of the IDA I project mdpi.com+1mdpi.com+1.

  • Kalús, D., Mučková, V., Koudelková, D., Janík, P., Šťastný, P., & others (2022?). Contribution to Active Thermal Protection Research—Part 2: Verification by Experimental Measurement. Energies, 16(12):4595. Experimental validation of ATP systems and reporting of related patents

 

Dr. Young Hun Jeong | Energy Harvesting | Best Researcher Award

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Dr. Young Hun Jeong | Energy Harvesting | Best Researcher Award

Korea Institute of Ceramic Engineering and Technology, South Korea.

Dr. Young Hun Jeong is a Chief Researcher at the Electronic Convergence Materials Division of the Korea Institute of Ceramic Engineering and Technology. He specializes in piezoelectric sensors, actuators, acoustics, and energy harvesting, with a particular focus on wearable and flexible piezoelectrics for bio-sensors. His expertise extends to infrared sensor development, nano-architecture, and microwave dielectric thin-film growth. Young Hun is a highly skilled researcher proficient in designing high-k and low-k thin films for capacitors, PTCR materials, and advancing microwave dielectric materials for next-generation applications.

Profile

Scopus

Education 🎓

Young Hun Jeong holds a degree in Materials Science with a specialization in electronic materials. His academic foundation has empowered him to push the boundaries of materials innovation, particularly in the areas of piezoelectrics and energy harvesting technologies.

Experience 🛠️

With a proven track record, Young Hun has contributed significantly to over 21 ongoing research projects and 3 industry consultancy projects. He has developed key technologies and methodologies, such as the two-dimensionally dispersed templated grain growth (2DD TGG) technique, which has advanced the performance of piezoelectric materials. He is also a contributor to numerous patents (52 published) and has co-authored 57 SCI journal articles, solidifying his role as a leader in energy harvesting and sensing technologies.

Research Interests 🔬

Piezoelectric Sensors & Actuators

Young Hun Jeong enhances piezoelectric sensors and actuators for better efficiency and sensitivity in industrial and medical applications.

Acoustics and Energy Harvesting

His work in acoustics and energy harvesting focuses on capturing ambient energy for self-powered systems and sensors.

Wearable and Flexible Piezoelectrics for Bio-sensors

Jeong innovates in wearable and flexible piezoelectrics, advancing bio-sensor technologies for health monitoring and diagnostics.

Infrared Sensors and Nano-Architecture

He develops infrared sensors and nano-architecture for applications in environmental monitoring, security, and healthcare.

Microwave Dielectric Thin Film Growth & Characterization

Jeong contributes to microwave dielectric thin films, improving materials for communication systems and radar technologies.

High-k & Low-k Thin Films for Capacitors

His research on high-k and low-k thin films improves capacitor performance, enhancing energy storage in electronic devices.

PTCR Materials

Jeong advances PTCR materials for temperature sensing and self-regulating systems in energy management.

Microwave Dielectric Materials

His work on microwave dielectric materials supports high-frequency systems like 5G and satellite communications.

Impact on Sectors

His research impacts sensing technologies, bioelectronics, and energy harvesting, driving innovation in self-sustaining systems and wearable tech.

Publications Top Notes 📚

Low-temperature sintered 0.5Pb(Ni1/3Nb2/3)O3–0.16PbZrO3–0.34PbTiO3 piezoelectric textured ceramics by Li2CO3 addition

Authors: Cho, S.W., Na, Y.-H., Baik, J.M., Park, K.-I., Jeong, Y.H., Published: 2024, Journal of the American Ceramic Society, Citations: 3. Link

Piezoelectric Pb(Ni,Nb)O3-Pb(Zr,Ti)O3 multilayer ceramics using Cu-Ag electrodes reduced by hydrazine solution treatment

Authors: Lee, M.-S., Jeong, Y.H., Published: 2024, Materials Today Communications, Link

Enhanced energy harvesting performance of piezoelectric cantilever using (Bi,Sm)ScO3-PbTiO3 ceramics textured by microstructural engineering, Authors: Lee, M.-S., Song, H.-C., Jeong, Y.H., Published: 2024, Materials Letters, Citations: 2. Link

Phase transition behavior and electrical properties of (Bi0.97Sm0.03)ScO3-PbTiO3 textured ceramics MPB-modified by BaTiO3 templates for high temperature piezoelectric device applications, Authors: Lee, M.-S., Jeong, Y.H., Published: 2023, Ceramics International, 49(23), Citations: 2. Link

Effects of Sm-substitution on dielectric, ferroelectric, and piezoelectric properties of 0.36(Bi1-xSmx)ScO3-0.64PbTiO3 ceramics

Authors: Cho, S.W., Baik, J.M., Jeong, Y.H., Published: 2023, Ceramics International, 49(2), Link