Taciana da Costa Queiroz – Solid Waste Management – Sustainable Infrastructure Innovation Award

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Master of Science in Marine and Coastal Biodiversity and Ecology - Brazil

AUTHOR PROFILE

ORCID

EARLY ACADEMIC PURSUITS

Taciana da Costa Queiroz pursued a diverse academic path, culminating in a Bachelor's in Environmental and Sanitary Engineering from Wyden Area 1. She then pursued dual Master of Science degrees, one in Marine and Coastal Biodiversity and Ecology from UNIFESP and the other in Environment, Water, and Sanitation from UFBA, showcasing her commitment to interdisciplinary studies in environmental sciences.

PROFESSIONAL ENDEAVORS

Queiroz's professional journey is marked by her involvement in a variety of research projects and teaching experiences. From investigating the impact of mollusc shells on marine substrates to evaluating solid waste management strategies, she has demonstrated a dedication to addressing pressing environmental challenges through research and education.

CONTRIBUTIONS AND RESEARCH FOCUS

Queiroz's research focuses on diverse environmental topics such as artificial reefs, waste management, water treatment, and coastal ecosystems. Through her projects, she has contributed valuable insights into the interaction between human activities and the environment, aiming to promote sustainable practices and conservation efforts.

IMPACT AND INFLUENCE

Queiroz's work has had a significant impact on both academic knowledge and practical applications in the field of environmental engineering. Her research findings and teaching experiences have influenced individuals, communities, and organizations, fostering a deeper understanding of environmental issues and promoting proactive solutions.

ACADEMIC CITES

Queiroz's research publications and presentations have been recognized and cited in academic circles, highlighting the relevance and quality of her contributions to the field. Her work has contributed to advancing knowledge in areas such as artificial reefs, solid waste management, and water treatment, shaping discourse and inspiring further research endeavors.

LEGACY AND FUTURE CONTRIBUTIONS

Taciana da Costa Queiroz's legacy lies in her multifaceted approach to addressing environmental challenges, combining research, education, and practical initiatives. As she continues her academic and professional journey, her commitment to promoting sustainability and environmental stewardship is poised to make a lasting impact on society and the environment.

NOTABLE PUBLICATION

Does the incorporation of shell waste from aquaculture in the construction of marine facilities affect the structure of the marine sessile community? 2024

Xiao Huan – Recycling of solid waste – Best Researcher Award

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Xiao Huan - Recycling of solid waste - Best Researcher Award

Guangxi University - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Dr. Xiao Huang's academic journey began with a Bachelor of Engineering degree in Materials Science and Engineering from Chongqing University. He furthered his studies with a Master of Philosophy from Chongqing University and completed his Ph.D. in Materials Science and Engineering at Wuhan University of Technology.

PROFESSIONAL ENDEAVORS

Dr. Xiao Huang has amassed extensive experience in academia and research. He served as a Postdoctoral Fellow at the Chinese Academy of Sciences before becoming a Research Assistant. Currently, he holds the position of Associate Professor at Guangxi University, where he continues to contribute significantly to the field of materials science.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Xiao Huang's research focuses on the development of new ecological building materials and the remediation technology of polluted sites. He has made significant contributions to the field through his work on sustainable cementitious materials, recycling of industrial solid wastes, and the preparation of novel vertical barrier materials.

IMPACT AND INFLUENCE

Dr. Xiao Huang's research has had a profound impact on the field of materials science and engineering. His publications, totaling over 30 papers in journals and international conferences, have provided valuable insights into topics such as brownmillerite hydration, alkali-activated slag, and chloride adsorption capacity, among others.

ACADEMIC CITES

Dr. Xiao Huang's research findings have been widely cited in the academic community, demonstrating the significance and relevance of his work. His publications have contributed to advancing knowledge and understanding in areas such as sustainable construction materials, cement chemistry, and environmental remediation.

LEGACY AND FUTURE CONTRIBUTIONS

As Dr. Xiao Huang continues his academic and professional journey, his legacy lies in his dedication to sustainable development and environmental protection. His future contributions are poised to further advance the field of materials science, particularly in the areas of recycling of solid waste and eco-friendly construction materials, leaving a lasting impact on both academia and society.

NOTABLE PUBLICATION

Genome-scale transcriptomic insights into the gene co-expression network of seed abortion in triploid Siraitia grosvenorii  2022 (2)

Durable antibacterial cotton fabric imitating skin wet management with synchronous liquid gating and directional liquid transfer 2022 (8)

Thomas Odey Magu – Renewable energy and waste management – Excellence in Research

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Thomas Odey Magu - Renewable energy and waste management - Excellence in Research

University of Florida - United States

AUTHOR PROFILE

Scopus
ORCID
Google Scholar

EARLY ACADEMIC PURSUITS

Thomas Odey Magu embarked on his academic journey with a Bachelor of Science degree in Chemistry from Cross River University of Technology (CRUTECH) in 2012. He continued to pursue higher education, obtaining a Master of Science in Physical Chemistry from the University of Calabar in 2017, where his research focused on biodiesel production using nanocatalysts.

PROFESSIONAL ENDEAVORS

Since 2016, Thomas Odey Magu has been actively engaged as a Teaching/Research Assistant in the Department of Pure & Applied Chemistry at the University of Calabar, Nigeria. He has contributed significantly to undergraduate education through teaching, grading, and supervising projects. Currently, he serves as a Teaching/Research Assistant at the Department of Chemistry, University of Florida, USA, where he leads discussion sections, conducts office hours, and proctors exams.

CONTRIBUTIONS AND RESEARCH FOCUS

Thomas Odey Magu's research interests span various areas of chemistry, including catalysis, renewable energy, waste management, and environmental impact studies. His current project involves the synthesis and characterization of novel catalysts for renewable energy and wastewater treatment, aiming to address pressing environmental challenges through innovative solutions.

IMPACT AND INFLUENCE

Through his teaching and research activities, Thomas Odey Magu has made a significant impact on both academic and practical aspects of chemistry. His work in catalysis, renewable energy, and waste management holds promise for addressing critical issues facing society, such as sustainability and environmental conservation.

ACADEMIC CITES

Thomas Odey Magu's research findings have been disseminated through various publications and presentations, contributing to the body of knowledge in his areas of expertise. His work serves as a valuable resource for fellow researchers, educators, and practitioners in the field of chemistry and related disciplines.

LEGACY AND FUTURE CONTRIBUTIONS

As Thomas Odey Magu continues his academic and professional journey, his legacy lies in his dedication to advancing knowledge and finding sustainable solutions to global challenges. His future contributions are poised to further enrich the fields of catalysis, renewable energy, and waste management, leaving a lasting impact on academia and society at large.

NOTABLE PUBLICATION

Hydrogen storage capacity of Al, Ca, Mg, Ni, and Zn decorated phosphorus-doped graphene: Insight from theoretical calculations  2023 (14)

Ab-initio study of structural, electronic, phonon, X-ray spectroscopy, and the optoelectronic properties of D-block metals (Cr, Mn, Co, and Ni) substitution of barium oxide based-perovskites 2023 (1)