Yijen Huang | Materials and Technology in Architecture | Best Researcher Award

Published on by Architecture Engineers

Best Researcher Award

Yijen Huang
National Chin-Yi University of Technology (NCUT), Taiwan
Research Profile
Affiliation National Chin-Yi University of Technology
Country Taiwan
Scopus ID 57223193925
Documents 31
Citations 251
h-index 10
Subject Area Energy Harvesting Materials
Event Architecture Engineers Awards
ORCID
0000-0002-8948-6988

Yijen Huang is affiliated with the National Chin-Yi University of Technology in Taiwan and is recognized for scholarly contributions related to energy harvesting materials and advanced material applications. The researcher has developed a consistent publication record supported by indexed scientific outputs, citation performance, and interdisciplinary academic collaborations within materials engineering and applied technology research domains.[1]

Abstract

This article evaluates the academic profile and research performance of Yijen Huang from the National Chin-Yi University of Technology, Taiwan. The assessment highlights contributions to energy harvesting materials, scientific publications, interdisciplinary engineering studies, and citation performance indexed through Scopus records. Research outputs demonstrate involvement in advanced material characterization, sustainable energy technologies, and applied engineering investigations. The researcher maintains measurable scholarly visibility through citations, indexed documents, and collaborative publications. The presented evaluation supports the suitability of the researcher for recognition within the Architecture Engineers Awards based on academic productivity, research consistency, and contributions to material science and technological innovation.[1]

Keywords

Energy harvesting materials, material engineering, sustainable technology, nanomaterials, applied science, engineering research, Scopus indexed publications, interdisciplinary research, material characterization, technological innovation.

Introduction

Academic recognition programs frequently evaluate publication quality, citation influence, collaborative activities, and scientific relevance within specialized research domains. Yijen Huang has demonstrated continued involvement in engineering and material-related investigations associated with energy harvesting applications and interdisciplinary technology development. The researcher’s indexed publications contribute to the broader understanding of functional materials and sustainable engineering solutions within contemporary scientific research environments.[2]

Research Profile

The research profile of Yijen Huang reflects participation in experimental and applied engineering studies involving energy harvesting materials and advanced material processing techniques. The Scopus-authorized profile identifies multiple indexed documents and measurable citation activity supporting research visibility. The profile additionally indicates participation in collaborative scientific publications connected to engineering innovation and sustainable material development.[1]

Research Contributions

Research contributions associated with Yijen Huang include investigations into material synthesis, energy-related applications, and engineering optimization methods. Published studies address practical and theoretical considerations involving functional materials and performance enhancement techniques. These scholarly activities contribute to the advancement of engineering knowledge related to sustainable technologies and innovative material systems utilized within modern scientific applications.[3]

Publications

The publication record associated with the researcher includes peer-reviewed journal articles indexed through Scopus and related academic databases. These publications focus on energy harvesting materials, advanced engineering processes, and material characterization methodologies. Indexed outputs demonstrate sustained participation in scholarly communication and support measurable research dissemination across engineering and material science disciplines.[1]

  • Research articles related to advanced material systems and energy applications.
  • Collaborative engineering publications indexed in Scopus databases.
  • Scientific studies associated with sustainable and applied technology research.

Research Impact

Citation metrics and indexed publication records indicate measurable academic influence within the researcher’s subject area. The available citation count and h-index suggest continued scholarly engagement and recognition from related scientific communities. Research visibility supported by database indexing contributes to institutional representation and encourages future interdisciplinary collaborations involving engineering and material innovation.[3]

Award Suitability

The academic profile of Yijen Huang demonstrates suitability for recognition within the Architecture Engineers Awards through measurable scholarly productivity, indexed publications, citation activity, and research specialization in energy harvesting materials. Contributions to applied engineering and sustainable technology research support the relevance of the researcher’s work within contemporary scientific and engineering evaluation criteria.[2]

Conclusion

Yijen Huang maintains a documented academic record characterized by indexed publications, citation performance, and engineering-focused research activities related to energy harvesting materials. The available scholarly indicators demonstrate consistent research engagement and contribution to interdisciplinary scientific studies. These academic characteristics support consideration for professional recognition within engineering and technology-oriented award evaluation frameworks.[4]

References

  1. Elsevier. (n.d.). Scopus author details: Yijen Huang, Author ID 57223193925. Scopus.


    https://www.scopus.com/authid/detail.uri?authorId=57223193925

  2. ORCID. (n.d.). ORCID profile of Yijen Huang. ORCID Registry.

    https://orcid.org/0000-0002-8948-6988
  3. Kamaraj, R., Lee, H., Huang, Y.-J., Chang, Y.-W., Hsu, R.-C., & Ahn, B. (2026). Controlling particle aggregation behavior and crystallinity of TiO₂
    nanoparticles in supercritical anti-solvent processing. Journal of Nanoparticle Research, 28(4), 1–15.

    https://doi.org/10.1007/s11051-026-06636-8

  4. Architecture Engineers Awards. (n.d.). Research recognition and academic excellence evaluation criteria.

    architectureengineers.com

Jonas Marinho Duarte | Materials and Technology in Architecture | Best Researcher Award

Published on by Architecture Engineers

Assoc. Prof. Dr. Jonas Marinho Duarte | Materials and Technology in Architecture | Best Researcher Award

Professor | Federal University of Western Para | Brazil

Professor Jonas Marinho Duarte of the Federal University of Western Para is a physicist and electrical engineer whose work advances the frontiers of nanotechnology and molecular nanoelectronics. With academic training grounded in physics and complemented by advanced degrees in electrical engineering, he has developed expertise in electronic transport, Majorana fermion detection, and the modeling of graphene-like two-dimensional materials using Green’s functions and ab initio methods. His professional experience includes leading and contributing to research projects on molecular electronics, low-dimensional systems, and carbon allotropes, with published studies appearing in Computational Condensed Matter, Physica E, and Optical and Quantum Electronics. He has been actively involved in collaborative work with institutions such as the Federal University of Pará and has contributed to emerging investigations on nanodevices for telecom applications and charge-transport phenomena in 1D and 2D materials. His scholarly engagement is supported by professional memberships within academic networks and his participation in interdisciplinary research groups. Across his career, Professor Duarte has established a growing record of scientific contributions, strengthening the field through computational insights, innovative modeling approaches, and the pursuit of new carbon-based device architectures, positioning him as a strong candidate for recognition in research excellence.

Profile: ORCID

Featured Publications

1. Duarte J.M., Cardoso D.H., Miranda I.R.S., Mota E.A.V., dos Santos da Silva S.J., da Silva C.A.B., Del Nero J., Numerical implementation of phagraphene as patch resonator for a microstrip antenna. Opt. Quantum Electron., 2025, DOI: 10.1007/s11082-025-08404-9.

2. Quaresma L.C., Ferreira D.F.S., Duarte J.M., Moreira M.M., da Silva C.A.B. Jr., Del Nero J., Eigenchannel visualization and transition-voltage spectroscopy in two-dimensional C-57 allotrope. Comput. Condens. Matter, 2025, DOI: 10.1016/j.cocom.2025.e01169.

3. Quaresma L.C., Duarte J.M., Ferreira D.F.S., da Silva C.A.B. Jr., Del Nero J., Electronic transport modulation in C-57: A path toward carbon-based logic and switching devices. Physica E, 2025, DOI: 10.1016/j.physe.2025.116340.

4. Duarte J.M., Santos J.C.S., Ferreira D.F.S., Paula M.V.S., Mota E.A.V., Silva C.A.B., Del Nero J., Systematic investigation of a metallic quadrilateral nanoribbon graphene allotrope for application in nanoelectronics. Comput. Condens. Matter, 2025, DOI: 10.1016/j.cocom.2025.e01007.

5. Duarte J.M., Metodologias ativas e educação ambiental: uma revisão integrativa sobre abordagens inovadoras para o ensino de energia solar. Ensino e Tecnologia em Revista, 2024.

Professor Jonas Marinho Duarte advances the scientific frontier of nanoelectronics by uncovering how emerging carbon allotropes and low-dimensional materials can enable next-generation logic, sensing, and energy-efficient device architectures. His computational research provides fundamental insights that support the development of future telecom, semiconductor, and molecular electronic technologies, strengthening innovation pathways across both academia and industry.

Anandakumar Srinivasan | Materials and Technology in Architecture | Best Researcher Award

Published on by Architecture Engineers

Assoc. Prof. Dr. Anandakumar Srinivasan | Materials and Technology in Architecture | Best Researcher Award

Associate Professor | Anna University | India

Dr. S. Anandakumar Srinivasan is an Associate Professor in the Department of Chemistry at Anna University, India, specializing in surface science, nano-hybrid coatings, bio-based polymers, and corrosion-resistant materials. With a doctorate in Polymer Chemistry and Material Science and postdoctoral research in the UK and Portugal, he has over two decades of academic and research experience including leadership roles such as Assistant Director at the Centre for Entrepreneur Development. His research focuses on developing eco-friendly polymer coatings and bio-composite films for industrial and environmental applications. He has authored over 75 peer-reviewed publications in renowned journals such as Progress in Organic Coatings, Journal of Polymer Research, and High Performance Polymers, along with eight books and multiple international patents on biodegradable barrier materials and surface treatments. He has successfully executed numerous projects funded by DST, DRDO, and Anna University and served on editorial boards of leading polymer science journals. His contributions have been recognized with prestigious honors including the IAAM Scientist Medal (Sweden), Technology Innovation Award, Active Researcher Award from Anna University, and the Royal Society Visiting Fellowship (UK). A member of the Society for Polymer Science and American Nano Society, Dr. Anandakumar continues to advance sustainable material innovation through his research on bio-based coatings, nanocomposites, and green manufacturing technologies for industrial and environmental impact. His research impact includes 1,243 citations, 50 publications, and an h-index of 19.

Profiles: Scopus | ORCID | Google Scholar

1. Anandakumar S., Shree Meenakshi K., Facile fabrication of polyaniline–MXene bilayer coatings for enhanced corrosion protection and self-healing on steel substrates. Prog. Org. Coat., 2026, Accepted.

2. Rajiv G., Ashick Naina Mohamed, Rajeswari G.R., Anandakumar S., Development of a partially bio-based sustainable polyurethane coating from non-edible mahua oil. Constr. Build. Mater., 2025, 1, [Article in press].

3. Rajiv G., Jeswin Anto L., Mathumitha K., Anandakumar S., Synergistic effects of biobased PLA and Garnet waste towards enhanced corrosion resistance of epoxy coating. J. Mol. Struct., 2025, 1, [Article in press].

4. Duraibabu D., Mohammed S.A., Suresh Kumar S.M., Anandakumar S., Advanced fabrication and characterization of AMMT nano clay reinforced tri-functional epoxy nanocomposites for superior thermal and mechanical properties. J. Polym. Res., 2024, [Article in press].

5. Dhanapal D., Srinivasan A.K., Rajarathinam M., Muthukaruppan A., Evaluation of augmented thermal, thermo-mechanical, mechanical properties of nano alumina reinforced TGDDM epoxy nanocomposites. High Perform. Polym., 2023, 35, 313–323.

Dr. S. Anandakumar Srinivasan’s pioneering research in sustainable polymer coatings and nano-hybrid composites advances the global shift toward eco-friendly materials by replacing petroleum-based systems with biodegradable, high-performance alternatives. His innovations contribute to corrosion protection, waste valorization, and green manufacturing, driving progress in sustainable industrial technologies and environmental preservation.