Deividi Maurente-Silva | Concrete Technology | Best Researcher Award

Published on by Architecture Engineers

Mr. Deividi Maurente-Silva | Concrete Technology | Best Researcher Award

Federal University of Rio Grande do Sul | Brazil

Mr. Deividi Maurente-Silva is a PhD candidate in Civil Engineering at the Federal University of Rio Grande do Sul, specializing in concrete technology, environmentally friendly cementitious materials, and biologically driven self-healing systems. His academic path builds on a strong foundation in materials science and civil engineering, supported by research roles that explore sustainable innovations for cement-based matrices. He has contributed to national collaborative projects involving multiple universities focused on optimizing healing agents and advancing self-healing concrete alternatives, and he has developed patented apparatus technology for standardized cracking procedures. His research spans autogenous and biologically induced healing mechanisms, calcium-based stimuli, and advanced characterization techniques, reflected in publications in journals such as Construction and Building Materials, Materials, Materia, and Ambiente Construído. Alongside his scholarly work, he has engaged in consultancy-aligned initiatives targeting performance improvement in sustainable cement composites. His professional profile is strengthened by participation in research networks, contributions to interdisciplinary groups, and involvement in academic development activities, supported by measurable research impact that includes 6 citations, 2 publications, and an h-index of 1.

Profiles: Scopus | ORCID

Featured Publications

1. Deividi Maurente-Silva, Joao Vitor Bitencourt Borowski, Angela Borges Masuero, Denise Carpena Coitinho Dal Molin, Quantifying the self-healing phenomenon in cement-based materials: Insights from ultrasound tests and optical microscopy. Constr. Build. Mater., 2025, 143899.

2. Deividi Gomes Maurente-Silva, Joao Vitor Bitencourt Borowski, Vanessa Giaretton Cappellesso, Marilene Henning Vainstein, Angela Borges Masuero, Denise Carpena Coitinho Dal Molin, Effect of exposure environment and calcium source on the biologically induced self-healing phenomenon in a cement-based material. Buildings, 2024, 14, 3782.

3. Janaine Fernanda Gaelzer Timm, Roberta Picanco Casarin, Deividi Maurente Gomes da Silva, Gustavo Bridi Bellaver, Daniel Tregnago Pagnussat, Daniela Dietz Viana, Proposta de ferramenta para diagnóstico do grau de inovacao percebido em empresas do ambiente construído. Ambiente Construído, 2023, 23, 00660.

4. Deividi Maurente Gomes da Silva, Vanessa Giaretton Cappellesso, Maurício Germano Lopes Garcia, Angela Borges Masuero, Denise Carpena Coitinho Dal Molin, Calcium hydroxide influence in autogenous self-healing of cement-based materials in various environmental conditions. Ambiente Construído, 2021, 21, 00522.

Deividi Maurente-Silva’s work advances sustainable construction by developing self-healing cement-based materials that reduce maintenance demands and extend the lifespan of infrastructure. His research strengthens scientific understanding of healing mechanisms while offering practical pathways for greener, longer-lasting building systems. His vision is to integrate biotechnology and materials engineering to create resilient, low-carbon solutions for the global built environment.

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.