Dr. Ohidul Alam – Environmental Pollution – Best Researcher Award

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Dr. Ohidul Alam - Environmental Pollution - Best Researcher Award

Jiangsu University - China 

Author Profile 

ORCID 

🎓 Early academic pursuits

Dr. Ohidul Alam he began his academic journey with a strong foundation in science, completing his ssc from shilkhali high school and hsc from government city college, chattogram. his higher education pathway was anchored at the institute of forestry and environmental sciences, university of chittagong, where he earned both his bsc (hons.) and ms in environmental science. driven by a passion for global environmental challenges, he pursued further studies in china, completing his meng in environmental engineering at the uneptongji institute for environment and sustainable development, tongji university, followed by a prestigious phd in environmental engineering at east china university of science and technology, shanghai.

👨‍🔬 Professional endeavors

Dr. Alam's professional journey is a blend of academic excellence and field-based sustainability practices. currently, he serves as a post-doctoral research fellow at the school of the environment and safety engineering, jiangsu university, china. previously, he held roles as an environmental officer at the sustainable enterprise project under integrated development Environmental Pollution foundation, and briefly served as a manager in the department of environment, bangladesh. his work extends beyond conventional research, contributing significantly to socio-economic and climate change projects as research associate and assistant.

🔬 Contributions and research focus

His academic contributions encompass diverse domains such as hazardous waste treatment and recycling, heavy metal removal, life cycle assessment, development of environmental materials like adsorbents and composites, wastewater treatment, microplastic pollution, and coastal wetland restoration. uniquely, dr. alam is exploring the potential integration of power electronics in Environmental Pollution renewable energy systems to support biomass-based energy technologies, aligning environmental science with modern engineering solutions. his collaborative spirit is evident in his support for peers in thesis development and scientific publications.

🌍 Impact and influence

Dr. Alam's impact is marked by his proactive involvement in over 15 national and international research projects, often as a principal investigator. with a total of 16 sci-indexed journal articles, 9 international open access publications, 3 national papers, 13 international conference papers, and multiple technical notes, his scholarship is extensive. he has also contributed significantly to Environmental Pollution policy and livelihood-based environmental projects, empowering communities and promoting sustainable development goals. his ongoing work is beginning to influence the role of power electronics in energy storage and pollution mitigation technologies.

📚 Academic cites and recognition

Dr. Alam’s research has gained recognition across peer-reviewed platforms, frequently cited for his work on environmental materials, microplastics, and wastewater treatment. his integrated approach—spanning materials science, environmental engineering, and application of power electronics in clean technology—has made him a respected figure in interdisciplinary research circles.

🌱 Legacy and future contributions

With a career rooted in academic integrity and innovation, dr. alam aims to advance the development of green technologies that intersect material science, energy sustainability, and environmental protection. his vision includes the large-scale application of eco-friendly composites for coastal restoration and microplastic filtering, while also mentoring upcoming researchers. he envisions leveraging global platforms to strengthen south-south academic collaboration and expand the practical application of his research findings.

Notable Publications 

  • Title: Influences of chemically controlled Ca-bearing minerals in chitosan on Pb²⁺ removal efficiency
    Author(s): Ohidul Alam, Xiuchen Qiao
    Journal: Journal of Environmental Health Science and Engineering

  • Title: The effect of Ca-bearing contents in chitosan on Pb²⁺, Cd²⁺ and Cu²⁺ adsorption and its adsorption mechanism
    Author(s): Ohidul Alam, Xiuchen Qiao, Tapan Kumar Nath
    Journal: Journal of Environmental Health Science and Engineering

  • Title: A preliminary life cycle assessment on healthcare waste management in Chittagong City, Bangladesh
    Author(s): Ohidul Alam, A. Mosharraf
    Journal: International Journal of Environmental Science and Technology

  • Title: An in-depth review on municipal solid waste management, treatment and disposal in Bangladesh
    Author(s): Ohidul Alam, Xiuchen Qiao
    Journal: Sustainable Cities and Society

  • Title: Determination of the selected heavy metal and metalloid contents in various types of plastic bags
    Author(s): Ohidul Alam, Li Yang, Xu Yanchun
    Journal: Journal of Environmental Health Science and Engineering

Dr. Mark Chatting – Past, present and future global mangrove productivity – Best Researcher Award 

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Dr. Mark Chatting - Past, present and future global mangrove productivity - Best Researcher Award 

University College Dublin - Ireland

AUTHOR PROFILE 

GOOGLE SCHOLAR 

EARLY ACADEMIC PURSUITS 🧑‍🎓

Mark Chatting embarked on his academic journey with a strong foundation in biology, earning his Bachelor of Science degree from the University of Northampton in 2006. His keen interest in marine biology led him to pursue a Master of Science in Marine Resource Management from the University of Southampton, completing it in 2013. His passion for understanding marine ecosystems and their dynamics culminated in his pursuit of a Doctor of Philosophy (PhD) in Marine Biology at Bangor University, which he successfully completed in 2022. This academic path laid the groundwork for his extensive research career in marine conservation and climate change modeling.

PROFESSIONAL ENDEAVORS 🌍

Mark's professional career took off in August 2014 when he joined the Environmental Science Centre at Qatar University. Here, he developed expertise in using large climate datasets for spatial prediction, particularly in the context of marine and environmental science. He worked extensively with machine learning frameworks such as Keras, PyTorch, and Scikit-Learn, alongside a strong command of time-series forecasting and image classification. In February 2023, Mark transitioned to a post-doctoral research fellow position at University College Dublin’s School of Civil Engineering, where he continues to build on his previous work, especially in the realm of species response to climate change and developing predictive models for various ecological processes.

CONTRIBUTIONS AND RESEARCH FOCUS 🔬

Mark’s research primarily focuses on understanding and predicting the impacts of climate change on marine ecosystems and species, particularly in relation to carbon storage and biodiversity conservation. His work on mangrove carbon storage has been pivotal in predicting future carbon stocks under varying climate scenarios. Mark has also applied machine learning to predict the sex ratios of hawksbill turtle hatchlings, a vital issue given the species' endangered status. His novel work in developing machine learning models for environmental science also extends to Past, present and future global mangrove productivity automating data analysis, such as scene classification and object counting in video data, making his contributions invaluable to both academia and conservation efforts.

ACCOLADES AND RECOGNITION 🏅

Throughout his career, Mark has been recognized for his innovative contributions to marine biology and conservation. His publications, such as the study on the feminization of hawksbill turtle hatchlings and the impact of climate change on mangrove ecosystems, have been featured in renowned journals like Estuarine, Coastal and Shelf Science and Frontiers in Marine Science. He has also received acclaim for his leadership role as Principal Investigator in long-running marine turtle monitoring projects, which have been critical in informing conservation practices and policy. Past, present and future global mangrove productivity Additionally, his membership in the International Union for the Conservation of Nature (IUCN) – Marine Turtle Specialist Group, highlights his standing within the global conservation community.

IMPACT AND INFLUENCE 🌱

Mark’s work has made a significant impact on both scientific communities and conservation practices worldwide. His development of machine learning tools for climate change impact predictions has revolutionized the way researchers predict species and ecosystem responses to climate shifts. By translating complex environmental data into actionable insights, he has Past, present and future global mangrove productivity influenced policy and management strategies, particularly in marine protected areas and biodiversity conservation efforts. His contributions to understanding the broader implications of climate change on marine species are foundational in the quest to preserve vulnerable ecosystems.

LEGACY AND FUTURE CONTRIBUTIONS 🌟

Mark Chatting’s work stands as a beacon of innovation and environmental stewardship, blending cutting-edge technology with a deep understanding of marine ecology. Looking forward, he is poised to continue advancing the field of marine conservation through machine learning and data-driven research. His future contributions aim to further refine models predicting environmental changes and enhance global efforts to mitigate the effects of climate change on marine biodiversity. Mark’s legacy will undoubtedly be marked by his commitment to leveraging science for conservation and his efforts to create sustainable, data-informed solutions for a changing planet.

NOTABLE  PUBLICATIONS 

  • Future mangrove carbon storage under climate change and deforestation
    Authors: M Chatting, I Al-Maslamani, M Walton, MW Skov, H Kennedy, ...
    Journal: Frontiers in Marine Science 9, 781876 (2022)
  • Mangrove carbon stocks and biomass partitioning in an extreme environment
    Authors: M Chatting, L LeVay, M Walton, MW Skov, H Kennedy, S Wilson, ...
    Journal: Estuarine, Coastal and Shelf Science 244, 106940 (2020)
  • Decline in oyster populations in traditional fishing grounds; is habitat damage by static fishing gear a contributory factor in ecosystem degradation?
    Authors: AM Ibrahim, S David, G Bruno, C Mark, AM Mohammed
    Journal: Journal of Sea Research 140, 40-51 (2018)
  • Benthic surveys of the historic pearl oyster beds of Qatar reveal a dramatic ecological change
    Authors: D Smyth, I Al-Maslamani, M Chatting, B Giraldes
    Journal: Marine Pollution Bulletin 113 (1-2), 147-155 (2016)
  • Basic assessment of Portunus segnis (Forskål, 1775)–A baseline for stock management in the Western Arabian Gulf
    Authors: BW Giraldes, I Al-Maslamani, A Al-Ashwel, M Chatting, D Smyth
    Journal: Egyptian Journal of Aquatic Research 42 (1), 111-119

Prof. Sungju Im  – Environmental engineering – Best Researcher Award

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Prof. Sungju Im  - Environmental engineering - Best Researcher Award

Gyengsang national university - South Korea

Author Profile 

SCOPUS 

ORCID 

Early academic pursuits 🎓

Sungju Im's academic journey in environmental engineering began with a master’s degree at sungkyunkwan university, korea, where he specialized in water resources and environmental engineering. his thesis focused on the performance evaluation of two-stage spiral wound forward osmosis (fo) elements under various operating conditions. his deep interest in water treatment technologies during his graduate studies laid the foundation for his future research in sustainable desalination processes.

Professional endeavors 🏢

After completing his m.s., sungju continued his academic and professional journey at gyeongsang national university, where he earned his ph.d. in environmental engineering. as part of the department of environmental engineering, his work has been closely linked to developing and improving water purification technologies, particularly forward osmosis (fo). this research focus has positioned him as a key contributor to innovations in water and desalination processes.

Contributions and research focus 🔬

Sungju im's research is centered on the techno-economic evaluation of forward osmosis as an alternative water treatment and desalination process. his work aims to Environmental engineering optimize fo systems to improve efficiency and make them more viable for large-scale applications. by addressing challenges like energy consumption and operational conditions, sungju contributes to making desalination more sustainable and accessible. his studies on spiral wound fo elements are particularly noted for their potential in enhancing industrial water recovery methods.

Accolades and recognition 🏅

Sungju has received recognition for his contributions to the field of environmental engineering. his research has been published in prominent journals, where his Environmental engineering work on fo systems is praised for its innovation and practical application. his expertise in this niche has garnered respect both within academic circles and the water treatment industry. his achievements reflect his commitment to advancing water purification technologies.

Impact and influence 🌍

Through his work, sungju im has had a significant impact on the global water industry. his research into forward osmosis presents a promising solution for water-scarce regions, offering a sustainable and cost-effective alternative to traditional desalination methods. his contributions are instrumental in driving forward the Environmental engineering adoption of fo technologies, providing innovative methods to address the global water crisis.

Legacy and future contributions 🔮

Sungju im's legacy lies in his pioneering work on forward osmosis and its potential to revolutionize water treatment. his dedication to improving the efficiency and economic viability of desalination technologies ensures that his research will have lasting effects on both the environment and the future of water engineering. his future contributions are likely to further enhance the practicality of fo in large-scale applications, making a tangible difference in global water management.

Notable Publications

  1. Title: "An efficient data-driven desalination approach for the element-scale forward osmosis (FO)-reverse osmosis (RO) hybrid systems"
    Authors: Im, S.-J., Viet, N.D., Lee, B.-T., Jang, A.
    Journal: Environmental Research, 2023, 237, 116786
  2. Title: "Supercritical carbon dioxide fluid cleaning of extracellular polymeric substance surrogates on seawater reverse osmosis membranes"
    Authors: Jung, B., Im, S., Westerhoff, P., Park, K.
    Journal: Desalination, 2023, 559, 116637
  3. Title: "High-Efficiency Recovery of Acetic Acid from Water Using Electroactive Gas-Stripping Membranes"
    Authors: Im, S., Jung, B., Wang, X., Hoek, E.M.V., Jassby, D.
    Journal: Environmental Science and Technology, 2023, 57(27), pp. 10096–10106
  4. Title: "Simple and Low-Cost Electroactive Membranes for Ammonia Recovery"
    Authors: Wang, X., Im, S., Jung, B., Hoek, E.M., Jassby, D.
    Journal: Environmental Science and Technology, 2023, 57(25), pp. 9405–9415
  5. Title: "Feasibility assessment of alternative environmentally friendly disinfection technique for reverse osmosis-based desalination process"
    Authors: Im, S., Jang, A.
    Journal: Desalination, 2023, 553, 116458

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

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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

A review of functions and mechanisms of clay soil conditioners and catalysts in thermal remediation  2025(1)

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)

Detoxification pathways of multiple metals from intensive copper production by indigenous ureolytic microbes coupled  2023(1)