Malik Dawuda Kindo – Sustainable Development – Best Researcher Award

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Malik Dawuda Kindo - Sustainable Development - Best Researcher Award

African Development Resource Research Institute - Ghana

AUTHOR PROFILE

ORCID

EARLY ACADEMIC PURSUITS

Malik Dawuda Kindo began his academic journey at the University of Ghana, where he pursued a Bachelor of Arts degree in Economics and Statistics from September 2014 to May 2018. Building upon this foundation, he continued his academic pursuit at the same institution, undertaking a Master of Philosophy (M.Phil) in Economics from January 2021 to December 2022. His early academic endeavors equipped him with a strong theoretical and methodological background in economics and statistics, laying the groundwork for his future professional endeavors.

PROFESSIONAL ENDEAVORS

Kindo's professional journey reflects a commitment to research and data analysis, with a focus on economic development and sustainability. Since January 2022, he has served as a Research and Data Analyst at the African Development Resource Research Institute in Ghana, where he applies his expertise to inform evidence-based policy decisions. Additionally, Kindo has been engaged in academic activities as a Reviewer for reputable journals such as the Ghanaian Journal of Economics, the African Review of Economics and Finance, and World Development Sustainability, showcasing his dedication to advancing scholarly research and knowledge dissemination.

CONTRIBUTIONS AND RESEARCH FOCUS

Kindo's research focus revolves around the intersection of trade, environmental quality, and sustainable development, particularly within the context of Ghana. His scholarly contributions aim to elucidate the complex relationship between trade dynamics and environmental sustainability, providing insights that inform policy formulation and implementation. Through his work, Kindo seeks to promote sustainable development strategies that balance economic growth with environmental conservation, thereby fostering long-term prosperity and well-being.

IMPACT AND INFLUENCE

Kindo's research on the impact of trade on environmental quality and sustainable development in Ghana has the potential to influence policy decisions and academic discourse. By shedding light on the nuanced dynamics between trade policies, environmental degradation, and sustainable development outcomes, his work contributes to a more holistic understanding of development challenges in the region. Moreover, his role as a reviewer for esteemed academic journals underscores his commitment to maintaining high research standards and fostering scholarly excellence.

ACADEMIC CITES

Kindo's scholarly contributions have the potential to garner citations from fellow researchers and scholars, thereby amplifying the impact of his work within the academic community. As his research findings become disseminated and integrated into the broader body of literature, they may serve as a catalyst for further inquiry and exploration in the field of sustainable development economics.

LEGACY AND FUTURE CONTRIBUTIONS

Malik Dawuda Kindo's dedication to research, data analysis, and scholarly review positions him as a promising leader in the field of sustainable development economics. His commitment to advancing knowledge and informing policy decisions underscores his potential to make a lasting impact on economic development and environmental sustainability in Ghana and beyond. As he continues to expand his research portfolio and engage in academic discourse, his contributions are poised to shape the future trajectory of sustainable development initiatives in the region.

NOTABLE PUBLICATION

The impact of trade on environmental quality and sustainable development in Ghana 2024

V. Madhavi – Environmental treatment – Best Researcher Award

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Dr. V. Madhavi - Environmental treatment - Best Researcher Award

BVRIT HYDERABAD College of Engineering for Women - India

AUTHOR PROFILE

Scopus
Google Scholar

EARLY ACADEMIC PURSUITS

Dr. V. Madhavi embarked on her academic journey with a strong foundation in the field of chemistry, completing her Bachelor's degree in M.P.C. from Sri Venkateswara University, Tirupati, in 2006. She continued her academic pursuits by obtaining a Master's degree in Chemistry from the same university in 2008, followed by a Ph.D. in Chemistry in 2014, demonstrating her commitment to advancing knowledge in her field.

PROFESSIONAL ENDEAVORS

Dr. Madhavi has garnered extensive experience in academia and research, holding various teaching and research positions. She has served as an Academic Consultant at Yogi Vemana University, Kadapa, and as an Assistant Professor at Annamacharya Engineering College, Tirupati. Additionally, she contributed as a Teaching Assistant at Sri Venkateswara University and held positions as an Assistant Professor at CMRIT, Hyderabad, and BVRITH, Hyderabad, where she currently serves.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Madhavi's research focus lies in environmental treatment, particularly in the remediation of heavy metals from wastewater using innovative nanocomposite materials. Her contributions have been highlighted through numerous publications in international journals, covering a wide range of topics such as nanotechnology for environmental engineering, graphene-based analytical sensors, and polymeric nanoparticles for sustainable agriculture.

IMPACT AND INFLUENCE

Dr. Madhavi's research has made a significant impact in the field of environmental treatment, as evidenced by her publications in reputable journals and her active involvement in national and international conferences. Her work on the synthesis of graphene from agricultural waste and its application in the remediation of heavy metals has garnered attention and recognition within the scientific community.

ACADEMIC CITES

Dr. Madhavi's scholarly works have been cited extensively, indicating the relevance and significance of her research findings in the field of environmental treatment. Her contributions to the development of sustainable solutions for wastewater remediation have been acknowledged by fellow researchers and scholars, further solidifying her reputation as a leading expert in the field.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Madhavi's legacy encompasses her dedication to advancing environmental treatment through innovative research and her commitment to educating future generations of scientists. Her future contributions are expected to further expand our understanding of nanocomposite materials and their applications in addressing environmental challenges, leaving a lasting impact on the field.

ENVIRONMENTAL TREATMENT IN FOCUS

Dr. V. Madhavi's professional journey exemplifies a steadfast commitment to advancing environmental treatment through interdisciplinary research and academic leadership. From her early academic pursuits to her current position as an Assistant Professor, Dr. Madhavi's contributions in nanotechnology and environmental engineering have had a profound impact on addressing critical challenges in wastewater remediation. With a focus on sustainability and innovation, Dr. Madhavi continues to pave the way for future advancements in environmental treatment, leaving a legacy of impactful research and scholarly excellence.

NOTABLE PUBLICATION

Polymeric nanoparticles as effective delivery systems in agriculture sustainability.  2023 (2)

Nanosorbents for the removal of heavy metal pollutants.  2022 (2)

Song Mengjie – Environmental Energy – Outstanding Scientist Award

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Song Mengjie - Environmental Energy - Outstanding Scientist Award

Beijing Institute of Technology - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Professor Song Mengjie's academic journey is marked by excellence and international exposure. He earned his Ph.D. in Building Services Engineering from The Hong Kong Polytechnic University with a full scholarship, showcasing early dedication to research and academic excellence. This was preceded by a master's degree from Harbin Institute of Technology and a bachelor's degree from Hunan University, both in the field of building thermal energy engineering.

PROFESSIONAL ENDEAVORS:

Prof. Song's professional journey demonstrates a diverse and impactful career. He has held significant roles such as President Assistant at Beijing Energy Research Institute and Beijing District Heating Group Co., Ltd. His experience extends globally, having served as a DECRA Researcher at the University of Wollongong in Australia and as a JSPS Research Fellow at the University of Tokyo in Japan. These roles not only showcase his expertise but also highlight his ability to contribute to various domains.

CONTRIBUTIONS AND RESEARCH FOCUS :

Prof. Song's contributions to the field are evident through his research interests, focusing on solidification of droplets, icing technologies, two-phase cooling systems, and environmental construction technology. His leadership as the Head of the Complex Phase Change Thermal Fluid Lab (Frost Lab) at Beijing Institute of Technology further underscores his commitment to advancing knowledge in these areas.

IMPACT AND INFLUENCE ON Environmental Energy:

With an impressive record of Google Scholar citations (5255), an h-index of 40, and an i10-index of 112, Prof. Song's impact on the scientific community is substantial. His work in areas like pumping two-phase cooling systems and frost-related technologies has likely influenced advancements in thermal engineering and fluid dynamics.

ACADEMIC CITES:

Prof. Song's research has been widely cited, as reflected in his substantial Google Scholar citation count. This suggests that his work has been instrumental in shaping the discourse within his field, indicating a high level of recognition and influence.

LEGACY AND FUTURE CONTRIBUTIONS:

As a Professor and Teli Young Scholar at the Department of Energy and Power Engineering, Beijing Institute of Technology, Prof. Song is positioned to leave a lasting legacy. His multidisciplinary expertise, international collaborations, and leadership roles suggest a future of continued contributions to research, education, and the global scientific community. Prof. Song's legacy is likely to include advancements in thermal engineering and environmental technologies.

NOTABLE PUBLICATION

Experimental study of relative humidity effect on the edge effect of frosting characteristics on a vertical cold plate surface.  2024 (1)