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Dr. Elias Niyuhire | Environmental geochemistry | Best Researcher Award

PHD,Ecole Normale Supérieure du Burundi 

Elias Niyuhire is a researcher with a strong background in Environmental Sciences and Engineering. He earned his Ph.D. from China University of Geosciences, Wuhan, in 2019, focusing on sulfide-driven hydroxyl radical production in oxic Fe(III)/NOM systems. Since 2019, Elias has co-authored five peer-reviewed publications on environmental chemistry, contributing to the advancement of knowledge in his field. His work involves a combination of scientific research, data collection, and manuscript revisions. Elias is also an active participant in scientific presentations, notably at the Burundi Higher Institute of Education (Ecole Normale Supérieure du Burundi), where he has contributed to knowledge dissemination in environmental science.

Professional Profile 

Scopus

🎓Education

Elias Niyuhire completed his Doctor of Philosophy in Environmental Sciences and Engineering in December 2019 at the China University of Geosciences, Wuhan. His doctoral research focused on sulfide-induced hydroxyl radical production in Fe(III)/NOM systems. Prior to that, he earned a Master’s degree in Environmental Sciences from the University of Burundi in Bujumbura in December 2014, furthering his foundation in environmental science. His academic journey began with a Bachelor’s degree in Chemistry from the University of Burundi in April 2009, which sparked his interest in environmental issues and laid the groundwork for his career in environmental research. Elias has also participated in numerous workshops and academic activities to enhance his research skills.

💼Experience

Elias Niyuhire has made significant contributions to environmental research through his co-authorship of five peer-reviewed publications. His work primarily focuses on understanding the environmental implications of sulfide interactions with iron and organic matter in aquatic systems. Elias has gained practical experience through active participation in data collection and manuscript editing. He has been part of several research projects investigating hydroxyl radical production in oxic Fe(III)/NOM systems and the impact of sulfide perturbations on natural organic matter. His expertise is also reflected in his involvement in scientific presentations, including at the Burundi Higher Institute of Education (Ecole Normale Supérieure du Burundi), where he shares his findings and contributes to the academic community’s understanding of environmental science. Elias is committed to advancing the field of environmental chemistry and its applications in addressing global environmental challenges.

🏆Award and Honor

Throughout his academic and research career, Elias Niyuhire has earned recognition for his contributions to environmental science. While specific honors and awards are not detailed, his work has had a significant impact on the field. His research has been consistently published in reputable journals, with articles such as Sulfide Drives Hydroxyl Radicals Production in Oxic Ferric Oxyhydroxides Environments and Sulfide Perturbation of NOM-Bearing Oxic Environments Induces Dark Hydroxyl Radical Production. These contributions underscore his dedication and expertise. Elias’ research in environmental chemistry, particularly his focus on the effects of sulfide and iron interactions in natural environments, has brought attention to critical environmental processes, which may eventually lead to further recognition and accolades in the scientific community.

🔬 Research Focus

Elias Niyuhire’s research primarily focuses on the chemical processes occurring in environmental systems, particularly those involving sulfide and its interaction with iron and natural organic matter (NOM). His doctoral dissertation explored how sulfide induces the production of hydroxyl radicals in oxic Fe(III)/NOM systems, a topic with significant implications for understanding natural water systems’ behavior. Elias has also researched the perturbation of NOM-bearing oxic environments by sulfide, which induces dark hydroxyl radical production. His studies have broader environmental applications, including understanding contaminant degradation, pollutant remediation, and enhancing water quality in natural and industrial systems. Recent publications by Elias have continued to address iron’s role in environmental chemistry, particularly in relation to natural sediments and antibiotics’ in-situ degradation. Elias is dedicated to advancing knowledge of the chemical mechanisms that underpin environmental processes and their potential applications in addressing global environmental challenges, such as water pollution and environmental toxicity.

Publications Top Noted

1. Title: Investigation of the migration of natural organic matter-iron-antimony nano-colloids in acid mine drainage

Year: 2024
Authors: Zhang, Y., Wu, P., Zhu, J., Zheng, R., Li, Y.
Citation: Science of the Total Environment, 918, 170666
Citations: 2

2. Title: Natural sediments activating peroxydisulfate for in situ degradation of antibiotics under anoxic conditions: The critical role of surface-adsorbed and structural Fe(II)

Year: 2023
Authors: Liao, W., Peng, W., Liao, P., Niyuhire, E., Cui, H.-J.
Citation: Chemical Engineering Journal, 472, 144938
Citations: 13

3. Title: Sulfide perturbation of NOM-bearing oxic environments induces dark •OH production

Year: 2022
Authors: Niyuhire, E., Zhou, C., Hu, B., Cai, Q., Yuan, S.
Citation: Chemical Geology, 613, 121147
Citations: 2

4. Title: Sulfide drives hydroxyl radicals production in oxic ferric oxyhydroxides environments

Year: 2019
Authors: Niyuhire, E., Yuan, S., Liao, W., Xie, W., Qian, A.
Citation: Chemosphere, 234, 450–460
Citations: 16

 

 

Elias Niyuhire | Environmental geochemistry | Best Researcher Award

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