Min-Woo Kim | Engineering | Research Excellence

Published on by Environmental Scientists

Prof. Min-Woo Kim | Engineering | Research Excellence

Prof. Min-Woo Kim | Engineering | Assistant Professor at Myongji University | South Korea

Prof. Min-Woo Kim is an emerging researcher whose academic and professional trajectory reflects a strong commitment to advancing precision manufacturing, materials engineering, and surface science. Prof. Min-Woo Kim’s educational background, though not explicitly detailed in the available record, is consistent with a rigorous training pathway typically involving advanced studies in mechanical engineering, materials science, or related fields, providing him with the foundation necessary to pursue highly technical research in semiconductor-related surface processes. Building upon this academic preparation, Prof. Min-Woo Kim has developed professional experience that centers on chemical mechanical planarization (CMP), hydrophobic coating technologies, and contamination-mitigation strategies within micro- and nanoscale fabrication environments. His work demonstrates an applied understanding of how surface wettability, particle interactions, and thin-film deposition influence the reliability and performance of CMP components used in high-precision manufacturing. Prof. Min-Woo Kim’s research interests include wettability-controlled coatings, PTFE- and DLC-based surface engineering, slurry-particle behavior, contamination control, and the broader integration of advanced materials to improve semiconductor fabrication efficiency and cleanliness. His research skills span experimental surface characterization, thin-film application techniques, interface behavior analysis, and collaborative work in multidisciplinary engineering teams, as evidenced by his role as a coauthor on peer-reviewed work published in the journal Micromachines. Professionally, he has participated in the scholarly community through peer-review activities, contributing expert review for Micromachines, which highlights his engagement in maintaining scientific standards in his field. Although the publicly available information does not list specific awards or honors, Prof. Min-Woo Kim’s contributions to surface engineering and fabrication-process optimization indicate a trajectory aligned with researchers who advance industrial innovation and academic knowledge simultaneously. Overall, Prof. Min-Woo Kim exemplifies a researcher dedicated to improving the performance and reliability of CMP systems through materials-driven solutions, and his evolving body of work reflects a promising career committed to scientific rigor, cross-disciplinary collaboration, and technological improvement within microfabrication and surface-engineering domains.

Academic Profile: ORCID

Featured Publication:

Kim, M.-W., Lee, E., Sun, K., So, Y., Baek, J., Shin, J. H., Kim, H. D., & Youn, Y. B. (2025). Wettability-controlled hydrophobic coating of CMP component using PTFE and DLC for mitigating slurry agglomeration and contamination. Micromachines. https://doi.org/10.3390/mi16121382

 

 

Gennaro Trancone | Engineering | Research Excellence Award

Published on by Environmental Scientists

Prof. Dr. Gennaro Trancone | Engineering | Research Excellence Award

Prof. Dr. Gennaro Trancone | Engineering | Research Fellow Università degli Studi di Napoli Federico II | Italy

Prof. Dr. Gennaro Trancone is an accomplished civil and environmental engineer with a Ph.D. in Civil Systems Engineering (Dottorato di Ricerca in Ingegneria dei Sistemi Civili) from Università degli Studi di Napoli Federico II, where he also holds research fellow appointments and is actively engaged in academic and professional activities integrating civil, environmental, and sustainable engineering practice; Prof. Dr. Gennaro Trancone completed his doctoral studies at Università degli Studi di Napoli Federico II in 2024 where he specialized in advanced analytical and experimental methods for environmental monitoring, waste treatment processes and sustainable engineered systems, and he is registered with the Order of Engineers in Naples (sector Civil and Environmental) and participates in Italian engineering society committees with roles in environmental and academic commissions, evidencing his commitment to professional governance, interdisciplinary collaboration, and academic leadership in engineering practice and education. Prof. Dr. Gennaro Trancone’s professional experience encompasses research fellow duties in Ingegneria Civile, Ambientale e Edile since 2024, during which he has led and contributed to multiple research projects spanning sediment contamination, waste valorization, anaerobic processes, and infrastructure materials assessment, developing robust quantitative skills in environmental chemistry, bioprocess engineering, materials characterization, and statistical modelling for environmental systems; his work demonstrates expertise in laboratory and field research, experimental design, ecological risk assessment, and process optimization, bridging fundamental science with applied engineering solutions for environmental sustainability challenges. Prof. Dr. Gennaro Trancone’s research interests include environmental contaminant mobility and remediation, sustainable waste treatment and valorization, biofilm reactor systems for renewable energy production, micro- and nano-plastic impacts in infrastructure materials, and the development of innovative treatments for emerging contaminants, reflecting a multidisciplinary approach anchored in engineering, environmental science and sustainability. His research skills encompass sediment and contaminant analysis, reactor design and optimization, chemical treatment parameter optimization, ecological monitoring techniques, and integration of statistical tools for complex environmental datasets. Prof. Dr. Gennaro Trancone has contributed to peer-reviewed journals and edited volumes, earning citations for studies such as assessments of toxic element mobility in sediments and multidisciplinary environmental monitoring, and has been recognized by peers through review invitations and research collaborations; his awards and honors include acknowledgement within professional societies and committee memberships that attest to his academic and professional service, underscoring his influence in the field. In conclusion, Prof. Dr. Gennaro Trancone stands as a dynamic and impactful scholar whose work advances sustainable engineering solutions and fosters interdisciplinary research collaboration, contributing meaningfully to both academic knowledge and practical engineering outcomes.

Academic Profile: ORCID | Scopus

Featured Publications:

  1. Ferraro, A., Siciliano, A., Spampinato, M., Morello, R., Trancone, G., Race, M., Guida, M., Fabbricino, M., Spasiano, D., & Fratino, U. (2024). A multidisciplinary approach based on chemical characterization of foreshore sediments, ecotoxicity assessment and statistical analyses for environmental monitoring of marine-coastal areas. Marine Environmental Research. (Cited ~21) ScienceDirect

  2. Ferraro, A., Marino, E., Trancone, G., Race, M., Mali, M., Pontoni, L., Fabbricino, M., Spasiano, D., & Fratino, U. (2023). Assessment of environmental parameters effect on potentially toxic elements mobility in foreshore sediments to support marine-coastal contamination prediction. Marine Pollution Bulletin. (Cited ~25) ScienceDirect

  3. Muscetta, M., Bianco, F., Trancone, G., Race, M., Siciliano, A., D’Agostino, F., Sprovieri, M., & Clarizia, L. (2023). Washing bottom sediment for the removal of arsenic from contaminated Italian coast. Processes. MDPI

  4. Veropalumbo, R., Oreto, C., Viscione, N., Pirozzi, F., Pontoni, L., Trancone, G., Race, M., & Russo, F. (2023). Exploring the effect on the environment of encapsulated micro- and nano-plastics into asphalt mastics for road pavement. Environmental Research.

  5. Ferraro, A., de Sario, S., Attanasio, A., Di Capua, F., Gorgoglione, A., Fratino, U., Mascolo, M. C., Pirozzi, F., Trancone, G., & Spasiano, D. (2023). Phosphorus recovery as struvite and hydroxyapatite from the liquid fraction of municipal sewage sludge with limited magnesium addition. Journal of Environmental Quality.

 

Romulus Mawa | Engineering | Best Researcher Award

Published on by Environmental Scientists

Dr. Romulus Mawa | Engineering | Best Researcher Award

Dr. Romulus Mawa | Engineering | China University of Geosciences | China

Dr. Romulus Mawa Tuzingila is an emerging researcher and Ph.D. candidate specializing in geological and petroleum engineering with a focus on rock mechanics, geomechanics, shale reservoir characterization, and subsurface energy resources, currently affiliated with the China University of Geosciences in Wuhan, China, where he contributes to experimental, analytical, and computational research within the Department of Petroleum Engineering and related key laboratories; he received his foundational education in earth sciences and petroleum exploration (with preliminary degrees completed prior to his doctoral studies, details are drawn from his extensive research output and academic profiles), and over the course of his academic career he has gained significant research experience working on multidisciplinary projects involving experimental rock physics, petrophysical characterization of organic-rich shale, hydraulic fracturing mechanisms, and CO₂–rock interactions as relevant to unconventional reservoir development and carbon storage strategies, conducting laboratory experiments such as uniaxial and triaxial compression, brittleness modeling, and mineralogical analysis using tools like X-ray diffraction and nuclear magnetic resonance, which have shaped his strong methodological and analytical expertise in geomechanical testing and numerical modeling; Dr. Tuzingila’s professional experience extends to international collaborations with co-authors from China and the Democratic Republic of the Congo and includes contributions to both high-impact scholarly journals and engineering society proceedings, demonstrating his ability to bridge fundamental science with applied energy engineering challenges, and his research interests center on the mechanical behavior of organic-rich marine shales, the effects of mineralogy and anisotropy on fracture propagation, and the implications of CO₂ geological storage and enhanced hydrocarbon recovery, supported by a robust set of research skills that range from experimental design and rock physics modeling to data interpretation and scientific writing; his scholarly contributions have attracted citations in related fields, reflecting peer recognition, and his awards and honors include acknowledgment of his peer-reviewed publications and participation in international research networks, underscoring his commitment to advancing knowledge in geomechanics and energy resources; overall, Dr. Tuzingila’s work continues to impact the understanding of subsurface mechanics and reservoir engineering, positioning him as a notable researcher in earth and energy sciences.

Academic Profile: Scopus

Featured Publications:

Tuzingila, R. M., et al. (2026). Machine learning to estimate the brittleness index of organic shale: Case study of Marcellus Shale formation. Journal of Energy Engineering.