Dr. Ricardo Alberto Rodríguez Carvajal | Engineering | Excellence in Innovation

Professor | University of Guanajuato | Mexico

Dr. Ricardo Alberto Rodríguez Carvajal is a distinguished academic whose multidisciplinary contributions have significantly advanced Engineering research, technological innovation, and applied knowledge transfer across institutional, industrial, and social environments. His extensive trajectory reflects leadership in Engineering project development, Engineering management, Engineering innovation, and Engineering-based problem-solving applied to solar energy systems, digital transformation, organizational sustainability, and technology transfer. With a strong record of publications in Engineering journals, collaborative research networks, and participation in national and international Engineering associations, he has demonstrated a consistent capacity to connect Engineering theory with practice through strategic collaborations, patent development, and impactful industrial partnerships. His work spans solar-energy Engineering, materials Engineering, industrial Engineering, and computational Engineering, integrating these fields into high-value technological ecosystems. His role in developing prototypes, coordinating multidisciplinary Engineering teams, and guiding projects from conceptualization to market transfer has strengthened regional innovation capabilities and supported industry-focused research agendas. Through leadership in academic committees, graduate program coordination, and supervision of numerous postgraduate theses in Engineering and innovation, he has also contributed to shaping new generations of specialists capable of applying Engineering principles to emerging societal challenges. His intellectual production includes articles, books, and chapters addressing Engineering processes, knowledge management, and innovation systems, while his participation in collaborative networks has enhanced knowledge circulation across Engineering communities. His societal impact is evident in applied research projects for renewable energy, agro-industrial transformation, technology-based entrepreneurship, and sustainable development, all grounded in rigorous Engineering methodologies. This consolidated profile reflects an academic committed to expanding the frontiers of Engineering and advancing technological solutions with broad social relevance. Google Scholar profile of 200 Citations, 8 h-index, 8 i10-index.

Profiles: Google Scholar | ORCID

Featured Publications

1. Herrera-Zamora, D. M., Lizama-Tzec, F. I., Santos-González, I., & others. (2020). Electrodeposited black cobalt selective coatings for application in solar thermal collectors: Fabrication, characterization, and stability. Solar Energy, 207, 1132–1145.

2. Pitalúa-Díaz, N., Herrera-López, E. J., Valencia-Palomo, G., & others. (2015). Comparative analysis between conventional PI and fuzzy logic PI controllers for indoor benzene concentrations. Sustainability, 7(5), 5398–5412.

3. León Lara, J. D., & Rodríguez Carvajal, R. A. (2014). Customer relationship management (CRM), a tool for creating competitive strategies. Epistemus (Sonora), 8(17), 81–87.

4. Isiordia-Lachica, P. C., Valenzuela, A., Rodríguez-Carvajal, R. A., & others. (2020). Identification and analysis of technology and knowledge transfer experiences for the agro-food sector in Mexico. Journal of Open Innovation: Technology, Market, and Complexity, 6(3), 59.

5. Romero-Hidalgo, J. A., Isiordia-Lachica, P. C., Valenzuela, A., & others. (2021). Knowledge and innovation management model in the organizational environment. Information, 12(6), 225.

Prof. Eui-chan Jeon | Engineering | Research Excellence Award

Professor | Sejong University | South Korea

Prof. Eui-chan Jeon is a distinguished scholar whose extensive contributions to Engineering and environmental science have positioned him as a leading global authority in climate change mitigation, atmospheric emissions, and sustainable policy development. With a long-standing career marked by influential leadership roles, Prof. Jeon has advanced national and international frameworks through his work with major climate organizations, including key positions related to the IPCC, national carbon-neutrality committees, and major environmental research councils. His expertise spans the Engineering dimensions of greenhouse gas inventories, air-pollution management, emission-factor development, and short-lived climate forcers, and he has consistently shaped policies and methodologies that guide both scientific communities and governmental bodies. His Engineering-driven research portfolio encompasses more than a hundred documents, demonstrating impactful collaborations across academia, industry, and government institutions, while his applied investigations into ammonia emissions, particulate-matter sources, and industrial greenhouse-gas abatement technologies have significantly strengthened environmental decision-making. Prof. Jeon’s work in Engineering has also contributed to advanced modeling systems, emission-characterization frameworks, and mitigation strategies utilized across sectors such as agriculture, waste management, semiconductor manufacturing, and energy industries. His numerous authored and co-authored publications reflect a sustained commitment to Engineering innovation, methodological rigor, and interdisciplinary problem-solving, offering solutions that translate complex scientific insights into practical societal benefits. Prof. Jeon’s Engineering achievements extend to textbook authorship, national consulting, and international project leadership, establishing him as a pivotal figure whose research reshapes climate governance and emission-management standards. His reliable scientific output, strong Engineering foundation, and broad collaborative networks continue to influence sustainable-development pathways and evidence-based environmental reforms. This professional summary is supported by his Scopus profile of 2,082 Citations, 110 Documents, and a 22 h-index.

Profiles: Scopus | ORCID

Featured Publications

1. Effects of Plasma Power on By-Product Gas Formation from CHF₃ and CH₂F₂ Process Gases in Semiconductor Etching Processes. (2025). Applied Sciences Switzerland.

2. Understanding the correlation between the structural and photoluminescent properties of Ca₃(PO₄)₂:Eu³⁺, M⁺ (M⁺ = Li⁺, Na⁺, K⁺) phosphors. (2025). Ceramics International.

3. Thermoelectric properties of SiC nanoparticle-dispersed Bi₁.₉₂₅Ba₀.₀₇₅Sr₂Co₂Oy. (2025). Journal of Alloys and Compounds.

4. A study on the application of an estimated ammonia emission factor reflecting the operating characteristics of open laying hen houses in Korea. (2025). Atmosphere.

5. The impact of plasma intensity on the unused rate in semiconductor manufacturing: Comparative analysis across intensity ranges from 30 to 3000. (2025). Applied Sciences Switzerland.