Dr. Iran Gomes da Rocha Segundo is an Assistant Researcher at CERIS, Instituto Superior Técnico, University of Lisbon, specializing in Transportation Systems. His work intersects Civil Engineering, Materials Science, and Environmental Sustainability, focusing on advanced and sustainable materials for pavement engineering. His research interests include innovative asphalt mixtures, self-cleaning and photocatalytic pavements, nanotechnology for infrastructure, functionalized and smart materials, phase change materials for thermal regulation, anti-aging and self-healing pavements, recycled and sustainable materials, pavement life-cycle assessment (LCA), urban heat island mitigation, and smart roads with sensors and adaptive materials. He was PhD researcher at the Center of Physics of the Universities of Minho and Porto (CF-UM-UP) at the University of Minho (UMinho), with a career focused on developing innovative materials for Transport Infrastructure and Roadways, emphasizing nanotechnology and sustainability. Besides, he was graduated at the Federal University of Ceará (Brazil) and concluded the master and doctorate at the University of Minho (Portugal). He quickly distinguished himself through the scientific impact of his research. One of his most notable achievements was his rapid transition into a scientific career, securing a position in the FCT Scientific Employment program applying to the call just 41 days after defending his PhD thesis. His doctoral thesis, awarded the highest classification of "Very Good," focused on creating eco-friendly, self-cleaning, and pollutant-mitigating nanomodified road pavements aimed at reducing accidents and promoting urban sustainability. Since 2020, Dr. Rocha Segundo has played a critical role in the NanoAir project funded by FCT, from its initial conception and writing during his PhD to its management and development. The project, which applies nanomaterials to road pavements, seeked to improve air quality in high-traffic urban areas, addressing the challenges of urban air pollution. This line of research has expanded with the development of pioneering smart road-marking paints in Portugal, incorporating thermochromic and self-cleaning functions. These paints can change color based on temperature, serving as sensors to enhance road safety under adverse conditions, such as the presence of ice. This was the core of his position under the FCT Scientific Employment, assigned to CF-UM-UP due to its strong optical component, involving measurements of retroreflectance, luminance, and color coordinates. Dr. Rocha Segundo currently leads the (RE)NERGY-BUILD project, funded by FCT, aimed at developing phase-change composite materials for the thermoregulation of Civil Engineering materials, with potential applications in concrete or asphalt pavements. This project is a continuation of MicroCoolPav (also funded by FCT), which he also contributed to in its concept, design, writing, management, and development, targeting the mitigation of urban heat islands and enhancing energy efficiency, thermal comfort, and durability in transportation infrastructure. His scientific output stands out, with approximately 30 publications in prestigious journals, including a paper on smart asphalt mixtures published in Renewable and Sustainable Energy Reviews (Elsevier), a journal with a high impact factor (IF = 16.3). With an h-index of 14 and over 800 citations (Scopus), Dr. Rocha Segundo has gained international recognition, earning awards such as the Young Researcher Award at CINPAR 2024, Best Presentation at PFDM 2023, and the Scientific Production Awards at the ANPET Congress 2022 and 2024.