Heer Wang | Environmental and Sustainable Materials | Research Excellence Award

Published on by Research Awards

Dr. Heer Wang | Environmental and Sustainable Materials | Research Excellence Award 

Kunming University of Science and Technology | China

Dr. Heer Wang is an emerging scholar in applied economics whose research lies at the intersection of industrial transformation, climate change, labor mobility, and sustainable economic development. His work explores how evolving economic structures and environmental shocks shape household behavior, productivity, and long-term growth pathways, particularly within developing and transitional economies. By integrating rigorous microeconometric evaluation methods with rich empirical data, he contributes meaningful insights into how societies adapt to climate risks and structural shifts. A major strand of his research investigates the socioeconomic consequences of climate variability, especially extreme rainfall and its implications for rural livelihoods. His publications in leading journals such as Science of The Total Environment and Applied Economic Perspectives and Policy highlight how climate shocks influence labor mobility, household vulnerability, agricultural productivity, and consumption smoothing. His studies provide evidence-based perspectives that deepen the understanding of how rural communities manage risk, adjust labor allocation, and navigate long-term adaptation strategies under environmental uncertainty. Another important area of his work focuses on industrial structure upgrading and technological capability. Through theoretical and empirical analyses published in the Asian Journal of Technology Innovation, his research examines the depth and sophistication of structural transformation, revealing how technological capacity and sectoral linkages drive high-quality economic development. His work contributes to policy discussions on how emerging economies can enhance industrial competitiveness while maintaining sustainable growth. In addition to published work, he has developed several working papers addressing market integration, climate-induced behavioral responses, and the dynamics of agricultural adaptation. These studies reflect a consistent research theme: understanding how economic agents respond to shocks and incentives within rapidly evolving socioeconomic environments. His research portfolio is reinforced by participation in multiple interdisciplinary and national research projects funded by major institutions. These projects span topics such as digital economy development, fertility policy evaluation, labor mobility under technological disruption, climate risk prediction using artificial intelligence, and the economic implications of population aging. His role across these initiatives demonstrates strong capabilities in empirical modeling, policy analysis, and data-driven decision support. He brings expertise in microeconometrics, policy evaluation techniques, and quantitative analysis using software platforms such as Stata, R, and SPSS. His work contributes directly to academic knowledge, policymaking, and practical interventions aimed at improving resilience, enhancing productivity, and supporting sustainable economic progress. Overall, his research advances critical conversations on how economies can navigate structural change while adapting to environmental and demographic challenges.

Citation Metrics (Google Scholar)

100
   80
   60
   50
   40
   30
   20
   10
     5
     0

Citations
31

Documents
3

h-index
2

Citations

Documents

h-index


View Google Scholar Profile

Featured Publications

Suocheng Dong | Environmental and Sustainable Materials | Best Researcher Award

Published on by Research Awards

Prof. Suocheng Dong | Environmental and Sustainable Materials | Best Researcher Award

Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences | China

Prof. Dong Suocheng is a leading scholar in regional economic geography, ecological economics, and green development studies, widely recognized for his influential contributions to the understanding of resource–environment interactions and sustainable development pathways in China and across Eurasia. As a senior professor at the Institute of Geographic Sciences and Natural Resources Research (IGSNRR), Chinese Academy of Sciences, he has built a distinguished academic career centered on the theory, methodology, and empirical assessment of ecological economic systems, regional sustainable development, and the coupling mechanisms between urbanization, economic growth, and the ecological environment. His research spans a broad range of topics including regional ecological economic differentiation, circular economy models, eco-city construction, ecological civilization pathways, green development strategies, and the quantitative analysis of urban–environment coordination. He has contributed extensively to the development of frameworks for evaluating ecological risks, optimizing regional resource allocation, and guiding policy for cross-border sustainable development initiatives such as the Belt and Road, the China–Mongolia–Russia corridor, and regional integration across Northeast and Central Asia. Prof. Dong has led nearly one hundred major national-level, ministerial, and regional research projects, including key programs of the National Natural Science Foundation of China and strategic cooperation initiatives. His contributions have resulted in more than 360 academic publications, monographs, and research reports that have significantly shaped scholarly discourse and policy formulation in resource economics, environmental management, and regional planning. More than forty of his advisory reports have been acknowledged and adopted by national decision-making bodies, demonstrating his strong impact on high-level sustainable development policy. His influential publications include seminal works on the coupling coordination between urbanization and the eco-environment in Mongolia, ecological and socioeconomic risks in international infrastructure projects, spatial–temporal drivers of carbon emissions in interprovincial trade, and assessment of circular economy systems in energy-intensive industries. His research in Land Use Policy, Environmental Science & Technology, Sustainability, Journal of Geographical Sciences, and Resources Science has become central to the advancement of regional ecological economics and spatial sustainable development. Through decades of rigorous scholarship, multidisciplinary collaboration, and strategic policy engagement, Prof. Dong has established himself as a major contributor to the evolution of ecological economic theory, regional green development models, and the science–policy interface essential to achieving sustainable development in rapidly transforming regions.

Profile: Scopus

Featured Publications

Dong, S., Chen, C., & Li, Y. (2016). An investigation report on economic and social sciences in Northern China and its adjacent areas. Science Press.

Dong, S., & Sun, J. (2017). Regional sustainable development of Northeast and Central Asia. Science Press.

Dong, S., Zheng, J., Li, Y., Li, Z., Li, F., Jin, L., & Yang, Y. (2019). Quantitative analysis of the coupling coordination degree between urbanization and eco-environment in Mongolia. Chinese Geographical Sciences, 29(5), 861–871.

Dong, S., Yang, Y., Li, F.*, et al. (2018). An evaluation of the economic, social, and ecological risks of China-Mongolia-Russia high-speed railway construction and policy suggestions. Journal of Geographical Sciences, 28(7), 900–918.

Dong, S., Wang, Z., Li, Y., Li, F., Chen, F., & Cheng, H. (2017). Assessment of comprehensive effects and optimization of a circular economy system of coal power and cement in Kongtong District, Pingliang City, Gansu Province, China. Sustainability, 9(787). https://doi.org/10.3390/su9050787

Dong, S., Cheng, H., Guo, P., et al. (2016). Transportation industry patterns and strategy of the Belt and Road. Bulletin of the Chinese Academy of Sciences, 31(6), 663–670.

Dong, S., Huang, Y., Li, Z., et al. (2014). Economic development patterns and regional economic integration modes for the Silk Road Economic Zone. Resources Science, 36(12), 2451–2458.

Wu, Y., & Dong, S.* (2018). Quantifying urban land expansion dynamics through improved land management institution model—Application in Ningxia–Inner Mongolia, China. Land Use Policy, 78, 386–396.

 

Walied Alarif | Nanomaterials | Editorial Board Member

Published on by Research Awards

Prof Dr. Walied Alarif | Nanomaterials | Editorial Board Member 

Department of Marine Chemistry, Faculty of Marine sciences, King Abdulaziz University | Saudi Arabia

Prof. Walied Mohamed Alarif is a distinguished Egyptian scholar and leading expert in Marine Organic Chemistry and Natural Products, with a career spanning more than two decades across research, academia, analytical chemistry, and marine bioactive substance discovery. Born on July 1, 1973, Prof. Alarif earned his B.Sc. in Chemistry (1995), M.Sc. in Organic Chemistry (1999), and Ph.D. in Organic Natural Products Chemistry (2005) from Mansoura University, Egypt. His scientific specialization centers on marine natural products, environmental chemistry, spectroscopy, and bioactive metabolites from marine organisms, particularly those inhabiting the Red Sea ecosystem. His early career began at Mansoura University as an instructor and research assistant (1996–2000), followed by significant research roles in forensic chemistry at the Egyptian Ministry of Justice from 2000 to 2007. He later joined King Abdulaziz University (KAU), Saudi Arabia, where he advanced from Assistant Professor in 2007 to Associate Professor in 2013, and ultimately to Professor of Marine Organic Natural Products in May 2018 in the Marine Chemistry Department, Faculty of Marine Sciences. Prof. Alarif has demonstrated strong leadership through numerous administrative roles at KAU, including Chairman of the Academic Accreditation Committee for the Ph.D. program, Self-Study Coordinator for the B.Sc. program, Academic Advisor for postgraduate studies, and long-term member of key committees such as Academic Affairs and Quality Committees (2014–2024). His research from 2020–2024 focuses on bioactive metabolites from Red Sea soft corals, discovery of novel biologically active compounds from Saudi marine organisms, and nano-sized antifouling preparations from marine environments. He has led major funded research projects including G:173-150-1441, G:450-150-1442, and IFPRC-134-150-2020. Prof. Alarif has also contributed to scientific training globally, including specialized training on Thermo Finnigan LTQ MS/MS mass spectrometry systems in New York, USA. His international impact is reflected in keynote speaking engagements, such as at the International Conference on Pharmaceutical Material, Engineering and Applied Science (ICOPMES 2020) in Indonesia. Prof. Alarif holds notable patents, including a pharmaceutical anticancer composition (US Patent 10,292,972B1) and marine natural product-based TiO₂ nanoparticles for eco-friendly antifouling (2022). His scholarly contributions include numerous publications in journals such as Journal of Saudi Chemical Society, Latinoamericana de Química, Biochemical Systematics and Ecology, CLEAN – Soil, Air, Water, Chemical and Pharmaceutical Bulletin, European Journal of Medicinal Chemistry, and more. With a strong publication record, Scopus ID 36157750600, and Web of Science Researcher ID H-7549-2012, Prof. Alarif continues to advance the frontiers of marine natural product chemistry, contributing significantly to drug discovery, marine ecology, and environmental sustainability.

Profile: Scopus | Orcid

Featured Publications

Dawidar, A. M., Ayyad, S. N., Abdel-Mogib, M., & Alarif, W. M. (2005). Humulene sesquiterpene lactone from Asteriscus schimperi. Journal of Saudi Chemical Society, 9(1), 137–142.

 Ayyad, S. N., Hoye, R. T., Dawidar, A. M., Abdel-Mogib, M., & Alarif, W. M. (2007). Constituents of Melia azedarach L. Revista Latinoamericana de Química, 36(1), 7–12.

Al-lihaibi, S. S., Ayyad, S. N., Al-wessaby, E., & Alarif, W. M. (2010). Dihydroxy-Δ-cholestan-11-one: A new oxidation pattern of cholestane skeleton from Laurencia papillosa. Biochemical Systematics and Ecology, 38, 861–863.

Alarif, W. M., Ayyad, S. N., & Al-lihaibi, S. S. (2010). Acyclic diterpenoid from the red alga Gracilaria foliifera. Revista Latinoamericana de Química, 38(3), 52–58.

Alarif, W. M., Abou-Elnaga, Z. S., Ayyad, S. N., & Al-lihaibi, S. S. (2010). Insecticidal metabolites from the green alga Caulerpa racemosa. CLEAN – Soil, Air, Water, 38, 548–557.

Al-lihaibi, S. S., Ayyad, S. N., Shaher, F. M., & Alarif, W. M. (2010). Antibacterial sphingolipid and steroids from the black coral Antipathes dichotoma. Chemical and Pharmaceutical Bulletin, 58(11), 1635–1638.

Ayyad, S. N., Makki, M. S., Al-kayal, N. S., Basaif, S. A., El-Foty, K. O., Asiri, A. M., Alarif, W. M., & Badria, F. A. (2011). Cytotoxic and protective DNA damage of three new diterpenoids from the brown alga Dictoyota dichotoma. European Journal of Medicinal Chemistry, 46, 175–182.

Ayyad, S. N., Al-Footy, K. O., Alarif, W. M., Sobahi, T. R., Basaif, S. A., Makki, M. S., Asiri, A. M., Al Halwani, A. Y., Badria, A. F., & Badria, F. A. (2011). Bioactive C15 acetogenins from red alga Laurencia obtusa. Chemical and Pharmaceutical Bulletin, 59(10), 1294–1298.

Qiufan Wang | Sustainable Materials | Best Researcher Award | 13542

Published on by Research Awards

Dr. Qiufan Wang | Sustainable Materials | Best Researcher Award

Dr. Qiufan Wang, South-central minzu university, China

Dr. Qiufan Wang has made pioneering contributions to the advancement of aqueous multivalent-ion energy storage systems, particularly in zinc- and ammonium-ion batteries. His research integrates heterojunction engineering, interfacial tuning, and in-situ diagnostics to improve energy density, stability, and scalability of hybrid supercapacitors. With over 40 high-impact publications and 4 patents, his innovations have significantly influenced next-generation battery design. Dr. Wang actively collaborates across disciplines to prototype aqueous him as a key contributor in the field of sustainable electrochemical energy storage.

Author Profile

Scopus

Early Academic Pursuits

Dr. Qiufan Wang’s academic journey began with a strong foundation in materials science and electrochemistry, culminating in a Ph.D. inMaterialsElectrochemistry from the prestigious Huazhong University of Science and Technology. During his doctoral studies, he delved deeply into energy storage mechanisms, particularly focusing on battery materials and charge-transfer interfaces. His early work reflected a strong curiosity about sustainable energy solutions and an aptitude for innovation. With a passion for science and a growing interest in multivalent-ion batteries, Dr. Wang’s academic training laid the groundwork for a career devoted to advancing electrochemical storage technologies.

Professional Endeavors

Currently serving as an Associate Professor at South-Central Minzu University, Dr. Wang has quickly risen to prominence in the field of aqueous energy storage systems. His professional career is marked by a blend of academic rigor and applied innovation. Dr. Wang has taken on numerous leadership roles in multi-institutional research collaborations, working alongside scientists and engineers to design, synthesize, and test new materials for  batteries and supercapacitors. His work has contributed significantly to national research initiatives and academic development at his institution, where he is known for mentoring young researchers and supervising graduate students.

His research group focuses on hybrid energy storage devices that combine the best features of batteries and capacitors, thereby enabling the development of fast-charging, long-cycle, and safe energy storage systems suitable for next-generation electronics and grid applications.

Contributions and Research Focus

Dr. Wang’s research sits at the intersection of materials electrochemistry, interfacial engineering, and energy storage systems. His major contributions include the development of heterojunction-based electrode materials, particularly WS₂-MoS₂ hybrids, which exhibit enhanced charge transport and storage capacity in aqueous zinc- and ammonium-ion batteries.

He is also known for advancing dual-ion battery systems and micro-supercapacitors, employing in-situ spectroscopy and Density Functional Theory (DFT) to understand and optimize material behavior at the molecular level. His work has directly influenced the performance metrics of battery prototypes and has paved the way for safer, more efficient energy storage alternatives to traditional lithium-ion technology.

With over 40 publications in top-tier journals such as Advanced Functional Materials, ACS Nano, and Nano Energy, as well as four patents granted or under review, Dr. Wang’s research is widely cited and respected across the global scientific community.

Accolades and Recognition

Dr. Wang has earned national and institutional recognition for his cutting-edge contributions to battery science. He has been the recipient of multiple research grants, awards for academic excellence, and best paper honors. Although specific award names are undisclosed in the public domain, his publication and patent record reflect a high-impact career.

His research outputs are consistently published in Nature-indexed journals, and his expertise has led to collaborations with internationally renowned teams in both academia and industry. His position on several editorial and review boards underlines his influence and respect in the field of electrochemical materials.

Publications 

📘Revealing the Role of Topotactic Anion Exchange in the Robust Zn Ion Storage of CuS1-xTex – ACS Sustainable (2025)
📘Enhancing aqueous zinc-ion battery performance through a dual-mechanism strategy – Chemical Communications (2025)
📘Electronic Regulation Engineering of (NH4)0.25WO3 Anode Enables Fast and Stable Rocking-Chair Zinc-Ion Batteries – Nano Letters (2025)

Yan Wang | Sustainable Materials | Best Researcher Award

Published on by Research Awards

Assoc Prof Dr. Yan Wang | Sustainable Materials | Best Researcher Award 

Assoc Prof Dr. Yan Wang, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, China

Assoc. Prof. Dr. Yan Wang, a dedicated researcher at the Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, specializes in advanced oxidation processes for water treatment. With over a decade of expertise, she has led innovations in catalytic materials, environmental functional membranes, and contaminant removal technologies. She has authored over 40 SCI-indexed publications, holds 8 patents, and actively collaborates on national projects focused on wastewater reclamation. Dr. Wang’s impactful contributions have earned her prestigious honors, including the IWA China Star Program Member and multiple national science awards, reinforcing her role as a key figure in sustainable water treatment research.

Author Profile

Scopus

🎓 Early Academic Pursuits

Dr. Yan Wang embarked on her academic journey with a deep-rooted passion for environmental science and sustainability. She pursued her doctoral degree at Shandong University, where she laid the foundation for her future in eco-environmental research. Her early academic focus on chemistry and materials science seamlessly blended with environmental applications, particularly in the realm of water treatment. This strong academic preparation not only shaped her scientific perspective but also inspired her to delve into the complex challenges facing global water systems.

In 2015, following her Ph.D., she joined the Research Center for Eco-Environmental Sciences (RCEES), Chinese Academy of Sciences—one of China’s most prestigious environmental research institutions. This marked the beginning of a prolific research career dedicated to solving pressing water contamination issues through scientific innovation.

🧪 Professional Endeavors

Currently serving as an Associate Researcher and Master’s Supervisor at RCEES, Dr. Wang has cultivated an impressive research portfolio that includes:

  • 12 completed/ongoing projects

  • 40+ high-impact publications in SCI/Scopus-indexed journals

  • 8 patents (published/under process)

  • 1 authored book

  • 2 consultancy/industry collaborations

Her editorial contributions are notable as well, holding roles such as Guest Editor and Editorial Board Member for the journal Water Emerging Contaminants & Nanoplastics, showcasing her thought leadership in the field.

Dr. Wang is a key contributor to the National Natural Science Foundation of China-funded project: “Strengthening mechanism in wastewater reclamation by multiple micro-interface processes and water quality risk control,” where she designs novel materials for water remediation systems.

🧬 Contributions and Research Focus

Over the past decade, Dr. Wang has established herself as a prominent expert in advanced oxidation processes (AOPs), specializing in:

  • Development of environmental functional materials

  • Catalytic mechanisms for photo/electrochemical and Fenton-like systems

  • Removal of emerging contaminants and nanoplastics from water

A hallmark of her research is the development of self-supporting catalytic membranes via an in-situ synthesis approach—an innovation that enhances the stability and reusability of catalysts used in water treatment. Furthermore, she proposed a pioneering strategy to promote the regeneration of Fe(Ⅱ) from Fe(Ⅲ), addressing a long-standing limitation in Fenton catalytic cycles.

With an H-index of 27 (Web of Science), her research is both scientifically impactful and practically applicable, often bridging the gap between laboratory findings and real-world water purification systems.

🏆 Accolades and Recognition

Dr. Wang’s outstanding work has earned her national and international recognition, including:

  • IWA China Young Committee Member & Star Program Member

  • First Prize – Science and Technology Award, China Surface Engineering Association

  • Second Prize – Scientific and Technological Progress Award, Ministry of Environmental Protection

Her association with esteemed organizations like the International Water Association (IWA) and the Beijing Ecological Restoration Society further highlights her commitment to both the scientific community and sustainable development goals.

🌍 Impact and Influence

Dr. Wang’s influence extends beyond academia. Through collaborative partnerships with environmental companies, several of her technologies have been successfully commercialized and applied in water treatment plants across China. Her work not only contributes to improving water quality but also plays a critical role in shaping policy and best practices for water sustainability.

Her mentorship of graduate students fosters the next generation of eco-environmental scientists, and her editorial involvement ensures the advancement of scientific discourse on water contamination and remediation.

🔮 Legacy and Future Contributions

Looking ahead, Dr. Yan Wang aims to lead transformative projects that address climate-adaptive water purification, nanomaterials for pollutant capture, and low-energy AOP systems. Her future research will likely focus on risk assessment and quality control frameworks for wastewater reuse, crucial for achieving circular water economies.

With her proven track record and visionary outlook, Dr. Wang is well-positioned to become a global leader in eco-environmental innovation, with a legacy grounded in scientific excellence, environmental impact, and public health protection.

✍️Publication Top Notes

📘 Ozone Reactions with Olefins and Alkynes: Kinetics, Activation Energies, and Mechanisms

Author: Yan Wang, Eva M. Rodríguez, Daniel Rentsch, Zhimin Qiang, Urs von Gunten

Journal: Physico-Chemical Treatment and Resource Recovery

Year: 2025

📘Synergistic photogeneration of reactive oxygen species by Fe species self-deposited on resorcinol-formaldehyde towards the degradation of phenols under visible light

Author: Wenxiang Ji, Huiyu Dong, Yan Wang, Zhimin Qiang

Journal: Chemosphere

Year: 2024