Prof. Myong jun kim – Sustainable extractive metallurgy – Best Researcher Award

Published on 15/02/202515/02/2025 by Innovator Awards

Prof. Myong jun kim - Sustainable extractive metallurgy - Best Researcher Award

Chonnam National University - South Korea

Author Profile

Early academic pursuits 🎓

Dr. Myong jun kim earned his phd from the university of new south wales (unsw), australia. his early academic journey laid a strong foundation in the fields of hydrometallurgy, recycling, and mineral processing, establishing his expertise in these critical areas of research.

Professional endeavors 🏢

For over 25 years, dr. kim has served as a professor at chonnam national university, korea. his professional journey is marked by dedication to both academia and industry collaborations, leading numerous research projects and providing consultancy to the resources industry.

Contributions and research focus 🔬

Dr. Kim's research primarily focuses on hydrometallurgy, recycling, and mineral processing. he has successfully completed over 40 research projects and is currently involved in two new Sustainable extractive metallurgy projects. his work has resulted in the development of over 15 novel technologies, many of which have been patented and transferred to the industry.

Accolades and recognition 🏆

with 64 scie research papers and 57 papers indexed in scopus, dr. kim’s scholarly contributions are widely recognized. his research has garnered a citation index of 23 (scopus), reflecting the Sustainable extractive metallurgy impact of his work in the scientific community.

Impact and influence 🌍

Dr. kim's influence extends beyond academia through his consultancy work on over 15 industry projects and the successful transfer of five technologies worth approximately 2.5 million usd. Sustainable extractive metallurgy his collaborations with industry partners and graduates continue to drive innovation and sustainable technology development.

Legacy and future contributions 🔗

As an innovator and educator, dr. kim’s legacy is defined by his commitment to advancing resource management technologies. his ongoing research, mentorship of young researchers, and active participation in industry collaborations promise continued contributions to the field of sustainable resource management.

Notable Publications

Title: A process using a thermal reduction for producing the battery grade lithium hydroxide from wasted black powder generated by cathode active materials manufacturing
Author(s): Jong-sun Park, Sangyun Seo, Kyusung Han, Seongil Lee, Myong-jun Kim
Journal: Journal of Hazardous Materials, 2023
Title: A process for removing toxic heavy metals to produce the high purity NH₄H₂PO₄ and KH₂PO₄ from a crude phosphoric acid
Author(s): Kyusung Han, Sangyun Seo, Seongil Lee, Myong-jun Kim
Journal: Journal of Hazardous Materials Advances, 2022
Title: The recovery of Cu, Co, Zn, and Mn from a complex oxide ore using an enhanced reduction leaching
Author(s): Sangyun Seo, Kyusung Han, Sung-il Lee, Myong-jun Kim
Journal: Metals, 2021
Title: A study on pyro-hydrometallurgical process for selective recovery of Pb, Sn and Sb from lead dross
Author(s): Woo-jin Kim, Sangyun Seo, Seongil Lee, Dong-wan Kim, Myong-jun Kim
Journal: Journal of Hazardous Materials, 2021
Title: Corrigendum to ‘Recovery of rhenium from a molybdenite roaster fume as high purity ammonium perrhenate’
Author(s): Hyunsoo Kim, Jong-sun Park, Sangyun Seo, Tam Tran, Myong-jun Kim
Journal: Hydrometallurgy, 2021

Dr. Yaru Peng – Environmental Science – Best Researcher Award

Published on 21/11/202421/11/2024 by Innovator Awards

Dr. Yaru Peng - Environmental Science - Best Researcher Award

College of Electronics and Engineering, North China University of Water Resources and Electric Power - China

Author Profile

ORCID

Early academic pursuits 🎓

yaru peng’s academic foundation is rooted in physics, where she obtained a ph.d., specializing in photocatalysis and photoelectrochemistry. her early education laid the groundwork for her future research endeavors, fostering a passion for innovative approaches to environmental purification and energy conversion. her academic journey was marked by an unwavering commitment to mastering the intricate mechanisms of photocatalytic systems.

Professional endeavors 🏫

as a researcher at the college of electronics and engineering, north china university of water resources and electric power, yaru has dedicated her career to advancing the fields of photocatalysis and photoelectrochemistry. her work is characterized by innovative methodologies and a focus on addressing critical environmental challenges. her position allows her to combine academic rigor with practical applications, bridging the gap between theory and implementation.

Contributions and research focus 🔍

yaru’s research focuses on enhancing the efficiency of photocatalytic and photoelectrochemical processes. she has pioneered work on crystal plane engineering and band structure regulation to improve visible light absorption and charge separation. her project on the band structure and transport properties of srtio3:rh/bi(vo4) Environmental Science epitaxial heterojunction stands out as a milestone, contributing to the development of stable semiconductor photocatalysts for water splitting and energy applications.

Accolades and recognition 🏅

yaru has published six high-quality research articles in renowned journals, with a collective citation count of 35, reflecting the significance of her contributions to the Environmental Science scientific community. her publications are widely regarded as valuable references for researchers in the fields of photocatalysis and photoelectrochemistry. her peers recognize her innovative approaches as critical advancements in the domain.

Impact and influence 🌍

yaru’s work has had a tangible impact on the fields of environmental purification and sustainable energy. her novel methods for developing corrosion-resistant al-ni alloys through molten salt electrolysis demonstrate her ability to translate complex scientific theories into practical solutions. her research has set benchmarks in Environmental Science photoelectric conversion efficiency and semiconductor material stability, influencing ongoing advancements in energy and environmental science.

Legacy and future contributions 🔮

yaru peng's legacy lies in her dedication to addressing global energy and environmental challenges through innovative research. her commitment to developing efficient, stable, and sustainable photocatalytic systems positions her as a trailblazer in her field. her future endeavors are expected to further push the boundaries of photoelectrochemical applications, inspiring a new generation of researchers to explore novel solutions for a sustainable future.

Notable Publications

Title: H2O2-assisted room temperature preparation of crystalline TiO2 and Ti3C2Tx-derived C-doped amorphous TiOx homojunction for photocatalytic degradation of tetracycline
Author(s): Junhao Cai, Yaru Peng, Po Hu, Yuan Zhou, Qiaoge Yao, Hao Lyu, Youtang Gao
Journal: Applied Surface Science
Title: Regulating the thickness of the NiO layer to optimize the photoinduced carrier separation behavior of BiVO4
Author(s): Yaru Peng, Junhao Cai, Guoqiang Li
Journal: Catalysis Science & Technology
Title: Enhanced charge separation of NiO/ZnO P-N heterojunction nanorod arrays for photoelectrochemical water splitting
Author(s): Junhao Cai, Heng Tao, Yaru Peng, Xiang Zhao, Po Hu, Yuan Zhou, Hao Lyu, Youtang Gao, Shuiwang Guo
Journal: Surfaces and Interfaces
Title: Photocarrier behavior and photocatalytic H2O2 synthesis performance of amorphous/crystalline SrTiO3/BiVO4 layered heterostructures
Author(s): Yaru Peng, Yuxin Shi, Shicheng Yan, Guoqiang Li
Journal: Renewable Energy
Title: Band alignment and photocatalytic activity of monoclinic BiVO4 (0 1 0) and (1 0 0) films with SrTiO3
Author(s): Yaru Peng, Pengwei Zhai, Yuxin Shi, Haoxiang Jiang, Guoqiang Li
Journal: Applied Surface Science

Dr. Juan Zhang – Soil pollution and remeidation – Best Researcher Award

Published on 11/06/202411/06/2024 by Innovator Awards

Dr. Juan Zhang - Soil pollution and remeidation - Best Researcher Award

University of Science and Technology Beijing - China

Professional Profile

SCOPUS

ORCID

Early Academic Pursuits

Dr. Juan Zhang embarked on her academic journey in 2003 at the Harbin Institute of Technology, where she earned a Bachelor's degree in Biological Engineering in 2007. Her undergraduate thesis focused on the "Change of Marine Microbe Community in Activated Sludge," marking the beginning of her exploration into environmental sciences. She continued her studies at Shandong University, where she completed her PhD in Environmental Science in 2012. Her doctoral research was centered on the "Distribution, Source, and Migration of Petroleum Hydrocarbons in Soil, Air, and Water in the Wastewater-Irrigated Area," laying a strong foundation for her future research in environmental contamination and remediation.

Professional Endeavors

Following her PhD, Dr. Zhang pursued a post-doctoral fellowship at the State Key Laboratory of Environmental Criteria and Risk Assessment, part of the Chinese Research Academy of Environmental Sciences. Here, she honed her expertise in environmental risk assessment and criteria development. In January 2015, she joined the University of Science and Technology Beijing as an Associate Professor in the School of Metallurgical and Ecological Engineering. Her professional journey also includes significant international experience, having served as a visiting scholar at the University of California, Davis, and as an Associate Professor at the University of Tokyo's School of Agricultural and Life Sciences.

Contributions and Research Focus

Dr. Zhang's research is primarily concerned with the migration, transformation, and control of contaminants across various media, including solids, water, and air. She has made substantial contributions to pollution source analysis, ecological and human health risk evaluation of contaminated sites, and environmental remediation. Her work includes environmental monitoring and analysis of organic contaminants and heavy metals, Soil pollution and remeidation and she is proficient in using advanced statistical models and software such as ArcGIS, SPSS, STATISTICA, and Canoco Software. Additionally, she has conducted research on bacterial isolation, culture, and the study of bacterial phospholipids and extracellular polymeric substances.

Accolades and Recognition

Dr. Zhang's contributions to environmental science have been recognized through her roles in prominent institutions. She has worked in the general affairs department of the Chinese Research Academy of Environmental Sciences and the National Natural Science Foundation of China. Her research and professional skills Soil pollution and remeidation have earned her a position as a part-time researcher at the Shaanxi Key Laboratory of Ecological Restoration and a part-time employee in the Department of Chemical Sciences at the National Natural Science Foundation of China.

Impact and Influence

Dr. Zhang's work has significantly influenced the field of environmental science, particularly in the areas of contaminant migration, ecological risk assessment, and environmental remediation. Her research has provided valuable insights into the environmental impacts of pollutants and the efficacy of various remediation Soil pollution and remeidation strategies. Her strong analytical, negotiating, communication, and advocacy skills have enabled her to contribute effectively to policy and decision-making processes in environmental science and technology.

Legacy and Future Contributions

Dr. Zhang's legacy in the field of environmental science is marked by her extensive research, international collaborations, and contributions to environmental policy and remediation strategies. As she continues her work at the University of Tokyo and other prestigious institutions, her future contributions are expected to further advance our understanding of environmental contaminants and the development of effective remediation techniques. Her ongoing research and professional endeavors will undoubtedly continue to shape the field and inspire future generations of environmental scientists.

NOTABLE PUBLICATIONS

Contamination and human health risk assessment of heavy metal(loid)s in topsoil and groundwater around 2023(3)

Reductive roasting of arsenic-contaminated red mud for Fe resources recovery driven by johnbaumite-based arsenic 2023(5)

“Soil for Soil Remediation” Strategy Driven on Converting Natural Soils into Fe₂O₃-CAN-Type Zeolite Composites 2023(1)