Sorin Echim | Hydrogen Technologies | Best Researcher Award

Published on by Applied Scientist

Mr. Sorin Echim | Hydrogen Technologies | Best Researcher Award

Engineer at National Research & Development Institute for Gas Turbines – COMOTI, Romania

ECHIM SORIN-MARCEL is a seasoned engineer and scientific researcher with a strong foundation in naval electromechanics and over two decades of distinguished service in the Romanian Naval Forces. Currently serving as a researcher at the National Research & Development Institute for Gas Turbines – COMOTI, he brings practical military experience into advanced energy and propulsion research. His work is distinguished by an interdisciplinary approach that integrates defense technology, energy systems, and environmental impact reduction. A PhD student at the Doctoral School of Energy Engineering, POLITEHNICA Bucharest, he is focusing on hydrogen energy and fuel cell applications in naval and industrial settings. Throughout his naval career (1996–2021), he led modernization programs and R&D activities critical to the Romanian defense sector. Since transitioning to civilian research, he has played pivotal roles in high-impact national projects, including TURBONAV and NAVYPRO. These initiatives reflect his commitment to innovation and sustainable technology integration in maritime systems. Sorin-Mircel’s recent academic contributions include published works on hydrogen energy and pollutant reduction strategies, indicating his emerging thought leadership in clean propulsion technologies. His blend of hands-on operational experience and forward-thinking energy research makes him a strong candidate for honors such as the Best Researcher or Young Scientist Award.

Professional Profile

Education

Sorin-Mircel’s academic journey began at the prestigious “Mircea cel Bătrân” Naval Academy, where he earned a bachelor’s degree with a specialization in naval electromechanics. This foundational education equipped him with the necessary skills for an extensive and impactful 25-year career in the Romanian Naval Forces. His professional trajectory has since evolved toward research and technological innovation in the energy sector. Recognizing the importance of continuous education and specialization, Sorin-Mircel enrolled in the Doctoral School of Energy Engineering at the National University of Science and Technology POLITEHNICA Bucharest. His doctoral studies are focused on cutting-edge technologies related to hydrogen energy systems and naval propulsion, which align closely with his professional background and research interests. This academic pursuit supports both his current work at COMOTI and his broader vision of driving energy sustainability in maritime and industrial applications. His academic endeavors have already produced noteworthy publications, and he actively contributes to scientific discourse in the field. By merging practical naval knowledge with rigorous academic research, Sorin-Mircel is uniquely positioned to bridge the gap between applied science and industry-focused innovation in energy engineering and sustainable propulsion systems.

Professional Experience

ECHIM SORIN-MARCEL brings a rich blend of military and civilian expertise to the field of engineering and energy research. From 1996 to 2021, he served with distinction in the Romanian Naval Forces, dedicating over two decades to managing strategic modernization and endowment projects. His leadership roles included coordinating technical assessments, supervising R&D operations, and implementing advanced technological solutions for naval systems. Upon transitioning from military service, Sorin-Mircel joined the National Research & Development Institute for Gas Turbines – COMOTI, where he initially contributed as an engineer and later advanced to the role of scientific researcher. At COMOTI, he became actively involved in national defense and energy-related research projects, including TURBONAV and NAVYPRO. These projects focused on developing and deploying modern gas turbine propulsion systems and replacing outdated technologies in missile-carrying ships. Additionally, he contributed to initiatives aimed at reducing emissions and improving fuel efficiency in marine diesel engines. His dual experience in field operations and lab research allows him to design and evaluate solutions that are both innovative and practically deployable. His engineering mindset, coupled with strategic vision, has positioned him as a trusted contributor to Romania’s energy and defense research ecosystem.

Research Interest

ECHIM SORIN-MARCEL’s research interests center on sustainable energy systems, with a particular focus on hydrogen technologies, fuel cells, naval propulsion, and pollutant emission reduction. His interdisciplinary approach stems from a unique career that blends naval engineering with energy innovation. He is especially passionate about exploring hydrogen as a clean energy vector for marine and industrial applications, where traditional fossil fuels dominate. His ongoing doctoral research deepens his exploration of these themes, and his published articles—such as “Applications of Hydrogen Energy in the Field of Transport” (2024) and “Use of Hydrogen Energy and Fuel Cells in Marine and Industrial Applications – Current Status” (2025)—showcase his commitment to advancing knowledge in this critical area. Additionally, he is highly interested in the integration of fuel cell systems in naval platforms, examining both efficiency metrics and environmental impact. Emission reduction in diesel propulsion remains another core focus, aligning with global climate objectives and Romania’s national sustainability goals. By combining field expertise with rigorous research, Sorin-Mircel aims to contribute meaningfully to the development of cleaner propulsion alternatives that are reliable, scalable, and defense-grade. His research vision promotes long-term innovation at the intersection of energy sustainability and maritime engineering.

Research Skills

ECHIM SORIN-MARCEL possesses a robust set of research skills grounded in engineering precision, operational insight, and academic rigor. His background in naval electromechanics has endowed him with expertise in propulsion systems, diagnostics, and energy efficiency analysis. In the research realm, he has applied these technical capabilities to real-world energy challenges, particularly those involving gas turbines, hydrogen energy systems, and pollutant control. His hands-on experience managing R&D activities for the Romanian Naval Forces equipped him with the ability to draft technical specifications, oversee testing protocols, and evaluate solution-based research outcomes. At COMOTI, he has demonstrated advanced competencies in problem-solving, project coordination, and interdisciplinary collaboration. He played integral roles in research initiatives like TURBONAV and NAVYPRO, contributing to concept development, system integration, and performance assessment. Sorin-Mircel also has growing proficiency in academic writing, having authored peer-reviewed publications related to hydrogen and fuel cells. His familiarity with tools for literature review, experimental analysis, and energy modeling continues to evolve through his doctoral studies. Additionally, his consultancy experience in top-down solution projects has honed his ability to translate complex energy innovations into actionable designs for defense and industrial applications. His skillset exemplifies a balance between theoretical depth and application-driven research.

Awards and Honors

While still in the early phase of his formal academic research career, ECHIM SORIN-MARCEL has already earned recognition through his contributions to defense modernization and sustainable propulsion. Although no formal academic awards are yet listed, his selection for leadership roles in national defense R&D projects reflects institutional trust and professional excellence. His transition from military engineer to scientific researcher is itself commendable, demonstrating his versatility and commitment to continuous improvement. The successful implementation of projects like TURBONAV and NAVYPRO are noteworthy accomplishments in national defense engineering, and his authorship of high-relevance papers in hydrogen energy further enhances his research credibility. Sorin-Mircel’s membership in the General Association of Engineers in Romania marks his active engagement with the broader engineering community. His works are now gaining visibility, as evidenced by citations on platforms like ResearchGate and Google Scholar. Given the direction of his doctoral research, his innovative contributions in fuel cell applications and pollutant emission reduction are expected to gain increased recognition. As his publication record grows and research continues to make impact, he stands as a strong candidate for distinctions such as the Best Researcher Award or the Young Scientist Award in the near future.

Conclusion

ECHIM SORIN-MARCEL embodies the qualities of a forward-thinking engineer, a dedicated researcher, and a resilient problem-solver. His career reflects a remarkable evolution from naval operations to advanced energy research, consistently marked by innovation and leadership. With over 25 years of applied experience and a clear focus on clean propulsion technologies, he stands at the intersection of practical engineering and scientific exploration. His transition to COMOTI and pursuit of doctoral studies illustrate his desire to bridge operational challenges with cutting-edge solutions, particularly in hydrogen energy and fuel cell systems. Through his involvement in high-impact national projects and his growing list of academic contributions, Sorin-Mircel has demonstrated both competence and potential. He is poised to contribute further to Romania’s and the global community’s push for greener, more efficient marine and industrial systems. His balanced expertise in technical implementation, research coordination, and academic rigor places him in a unique position to impact future energy systems. With continued focus, publication, and collaboration, he is likely to emerge as a leading voice in sustainable propulsion technologies. ECHIM SORIN-MARCEL is not only deserving of recognition through research awards but is also a valuable asset to the international scientific community.

Publications Top Notes

  • Title: Applications of Hydrogen Energy in the Field of Transport
    Authors: S. Echim, S. Budea
    Year: 2024
    Citations: 3

  • Title: Use of Hydrogen Energy and Fuel Cells in Marine and Industrial Applications—Current Status
    Authors: S.M. Echim, S. Budea
    Year: 2025

Jianhui Chen | Energy | Applied Scientist Award

Published on by Applied Scientist

Prof. Dr. Jianhui Chen | Energy | Applied Scientist Award

Professor at Hebei University, China

Dr. Jianhui Chen is a distinguished researcher and academic who has demonstrated significant leadership in the field of photovoltaic technology. Since joining the faculty of Hebei University in 2014, he has built an exemplary career that bridges fundamental scientific research and practical industrial application. Earning his Ph.D. from Hebei University in December 2017, Dr. Chen has amassed an impressive portfolio that includes over 50 peer-reviewed SCI papers published in prestigious journals such as Nature Communications, Advanced Materials, and ACS Energy Letters. He has led three national-level and seven provincial-level research projects, showcasing his capacity for high-level scientific management and innovation. His patented work and contributions to technical standards underscore his applied expertise, while his success in achieving 10 million RMB in technology transfer revenue reflects the commercial impact of his innovations. As a Group Leader at the Collaborative Innovation Center of Hebei Photovoltaic Technology, Dr. Chen is at the forefront of developing cutting-edge passivation and interface technologies for solar cells. His combination of academic excellence, applied research success, and industry influence positions him as a leading figure in China’s renewable energy and materials science sectors.

Professional Profiles

Education

Jianhui Chen’s academic journey is deeply rooted in Hebei University, where he embarked on a rigorous path of scientific inquiry and achievement. He joined the university as a faculty member in 2014 and simultaneously pursued his doctoral studies, culminating in the award of his Ph.D. in December 2017. His doctoral work focused on the physics of photovoltaic devices and the interface science critical to advancing solar energy technologies. Throughout his studies, Dr. Chen developed a robust theoretical foundation while also cultivating an applied engineering perspective, blending academic excellence with practical innovation. His education at Hebei University was marked by a multidisciplinary approach, integrating material science, electrical engineering, and electrochemistry. This diverse academic background provided the tools necessary for Dr. Chen to not only pursue high-impact scientific research but also translate findings into real-world applications. In addition to formal coursework and research, he engaged in collaborative projects, workshops, and technology transfer initiatives, further enriching his educational experience. The continuity between his role as a student and as a faculty member created a dynamic feedback loop, where teaching and learning informed one another. This unique academic trajectory has shaped Dr. Chen into a scholar-practitioner who drives both scientific discovery and industrial transformation.

Professional Experience

Dr. Jianhui Chen’s professional experience is marked by his dual commitment to academic research and industrial application in the field of photovoltaic technology. Since joining Hebei University’s faculty in 2014, he has steadily advanced to become a prominent Group Leader at the Collaborative Innovation Center of Hebei Photovoltaic Technology. In this role, he has spearheaded groundbreaking research projects and led cross-functional teams in the development of novel technologies for solar energy systems. His leadership has resulted in the successful execution of three national-level research initiatives and seven provincial or ministerial-level projects. Dr. Chen’s professional portfolio also includes three provincial and ministerial-level awards (second prize), attesting to the societal and technological relevance of his work. He has developed one technical standard and holds an impressive total of 60 patents, many of which have been licensed or transferred to industry partners. This has led to 10 million RMB in technology transfer revenue, demonstrating his effectiveness in bridging the gap between the laboratory and the production floor. With expertise spanning device physics, industrial process integration, and equipment innovation, Dr. Chen has not only contributed significantly to China’s solar technology landscape but has also mentored a new generation of scientists and engineers.

Research Interest

Dr. Jianhui Chen’s research interests lie at the cutting edge of photovoltaic technology, with a strong emphasis on the fundamental physics of organic-inorganic interfaces and their practical applications in electronic and optoelectronic devices. His pioneering work on the electrochemical passivation mechanism of silicon surfaces has opened new avenues in improving solar cell efficiency. Motivated by real-world industry challenges, such as edge defects caused by slicing industrial photovoltaic cells, Dr. Chen developed the “passivation liquid laser scribing defect re-passivation technology,” a breakthrough that addresses a critical bottleneck in solar cell manufacturing. He has since designed and implemented mass production solutions and passivation equipment that have been successfully adapted to commercial production lines. Dr. Chen is currently exploring innovative directions such as novel passivation technologies for solar cells and their industrialization; the purification of low-dimensional semiconductor materials and their integration into crystalline silicon technologies; and cost-effective strategies for electrochemical passivation in tandem solar cells. These research trajectories not only target performance enhancements and cost reduction but also aim to accelerate the deployment of renewable energy technologies globally. By blending fundamental science with practical engineering, Dr. Chen continues to shape the future of high-efficiency solar energy systems and energy-saving devices.

Research Skills

Dr. Jianhui Chen brings a comprehensive and refined skill set to his research in photovoltaic and semiconductor technologies. His core expertise includes solar cell device physics, with specialization in passivation processes, interface engineering, and the integration of organic-inorganic materials. He is highly proficient in advanced characterization techniques used to analyze surface chemistry, interface defects, and carrier dynamics, including atomic force microscopy (AFM), X-ray photoelectron spectroscopy (XPS), and scanning electron microscopy (SEM). Dr. Chen is also adept in electrochemical methods and laser-assisted scribing technologies, which he has applied to develop defect re-passivation techniques that significantly improve solar cell efficiency. On the engineering side, he has hands-on experience designing custom equipment and adapting laboratory prototypes for industrial-scale production, a skill that has led to the successful commercialization of several technologies. His research is backed by strong project management abilities, allowing him to lead multidisciplinary teams across national and provincial projects. Additionally, Dr. Chen’s publication and patent track records demonstrate his ability to translate technical knowledge into high-impact scholarly and practical outputs. His ability to bridge theoretical modeling, experimental validation, and industrial application exemplifies the depth and versatility of his research capabilities.

Awards and Honors

Dr. Jianhui Chen’s work has been recognized with multiple prestigious awards that highlight both his academic excellence and practical impact in the field of renewable energy. He is a recipient of the Hebei Province Science Foundation for Distinguished Young Scholars, an honor that recognizes emerging leaders making significant contributions to science and technology. Additionally, he has secured funding from the National Natural Science Foundation of China (NSFC), affirming the national relevance and scientific merit of his research. Dr. Chen has led three national-level and seven provincial-level research projects, each contributing to China’s strategic goals in clean energy and technological innovation. His contributions have earned him three second-prize awards at the provincial and ministerial levels, validating his ability to deliver tangible outcomes through complex and multidisciplinary research. Furthermore, his success in technology transfer—achieving 10 million RMB in commercialization revenue—demonstrates the real-world impact of his innovations. With over 50 publications in top-tier journals and more than 60 patents to his name, Dr. Chen stands as a role model for researchers seeking to combine scientific rigor with societal and industrial relevance. His accolades reflect a career marked by excellence, innovation, and dedication to public and environmental good.

Conclusion

Dr. Jianhui Chen has established himself as a leading force in photovoltaic technology and materials science, distinguished by his ability to integrate theoretical insight with industrial application. From his early academic training to his current role as Group Leader at the Collaborative Innovation Center of Hebei Photovoltaic Technology, his career reflects a seamless fusion of research, innovation, and real-world impact. His development of the passivation liquid laser scribing technology exemplifies his unique approach: identifying critical industry challenges and responding with scientifically grounded, scalable solutions. His achievements—over 50 high-impact publications, 60 patents, multiple competitive grants, and millions in technology transfer revenue—highlight a career that transcends traditional academic boundaries. Dr. Chen’s ongoing research continues to address the twin challenges of efficiency and cost in solar energy, positioning him as a key contributor to the global shift toward sustainable energy systems. His ability to lead projects, mentor students, and collaborate with industry ensures his work remains both cutting-edge and deeply relevant. As the world increasingly turns to renewable energy, Dr. Jianhui Chen’s contributions will remain vital to shaping efficient, accessible, and scalable solar technologies for the future.

 Publications Top Notes

  1. Title: Solution processable in situ passivated silicon nanowires
    Author: Jianhui Chen
    Year: 2021

  2. Title: Ferroelectric-like organic–inorganic interfaces
    Author: Jianhui Chen
    Year: 2020

  3. Title: Carbon Nanotubes for Photovoltaics: From Lab to Industry
    Author: Jianhui Chen
    Year: 2020

  4. Title: A Polymer/Carbon‐Nanotube Ink as a Boron‐Dopant/Inorganic‐Passivation Free Carrier Selective Contact for Silicon Solar Cells with over 21% Efficiency
    Author: Jianhui Chen
    Year: 2020

  5. Title: Conductive Hole‐Selective Passivating Contacts for Crystalline Silicon Solar Cells
    Author: Jianhui Chen
    Year: 2020

  6. Title: Front and Back‐Junction Carbon Nanotube‐Silicon Solar Cells with an Industrial Architecture
    Author: Jianhui Chen
    Year: 2020

  7. Title: Zn(O,S)-based electron-selective contacts with tunable band structure for silicon heterojunction solar cells
    Author: Jianhui Chen
    Year: 2019

  8. Title: Establishment of a novel functional group passivation system for the surface engineering of c-Si solar cells
    Author: Jianhui Chen
    Year: 2019

  9. Title: Vacuum-Free, Room-Temperature Organic Passivation of Silicon: Toward Very Low Recombination of Micro-/Nanotextured Surface Structures
    Author: Jianhui Chen
    Year: 2018

  10. Title: Polymer/Si Heterojunction Hybrid Solar Cells with Rubrene:DMSO Organic Semiconductor Film as an Electron-Selective Contact
    Author: Jianhui Chen
    Year: 2018

  11. Title: Electron-Selective Epitaxial/Amorphous Germanium Stack Contact for Organic-Crystalline Silicon Hybrid Solar Cells
    Author: Jianhui Chen
    Year: 2018

  12. Title: Voc transient in silicon heterojunction solar cells with µc-SiOx:H window layers
    Author: Jianhui Chen
    Year: 2018

  13. Title: Hafnium Thin Film as a Rear Metallization Scheme for Polymer/Silicon Hybrid Solar Cells
    Author: Jianhui Chen
    Year: 2018

  14. Title: Low work function intermetallic thin film as a back surface field material for hybrid solar cells
    Author: Jianhui Chen
    Year: 2018