Assoc Prof Dr. Atousa Aliahmadi | Decision-making and Problem-solving | Best Academic Researcher Award

Assoc Prof Dr. Atousa Aliahmadi | Decision-making and Problem-solving | Best Academic Researcher Award

Shahid Beheshti University, Iran

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🌱 Early Academic Pursuits

Dr. Atousa Aliahmadi’s academic journey began with a profound curiosity about the natural world and the unseen microbial forces that influence health, agriculture, and biotechnology. She pursued her Master of Science in Microbiology from 1999 to 2002, laying a solid foundation in microbial research techniques and plant-based bioactivity studies. However, it was during her doctoral studies from 2006 to 2011 at the University of Isfahan—one of Iran’s most prestigious institutions—that her academic pursuits took a distinctive direction. Selected through a talent-based acceptance program by Iran’s Ministry of Science, Research and Technology, she joined the Ph.D. program with high academic merit.

Her doctoral thesis, entitled “Investigation of antibacterial and anti-inflammatory effects of plant peptides and extracts,” marked a critical phase in her scientific formation. Throughout her five-year, full-time Ph.D. program, she delved deeply into the bioactive potential of over 20 plant species. By mastering sophisticated analytical techniques such as High-Performance Liquid Chromatography (HPLC), High-Performance Thin Layer Chromatography (HPTLC), two-dimensional electrophoresis (2DE), and various bioassays, she became an expert in isolating and characterizing antimicrobial peptides and phytochemicals. Her research was not only academically rigorous but also practically innovative, yielding peer-reviewed publications and multiple international conference presentations.

🧪 Professional Endeavors

Currently serving as an Associate Professor and Principal Investigator based in Evin, Tehran, Iran, Dr. Aliahmadi holds an academic appointment at Shahid Beheshti University. Her career has blended academic scholarship with applied research. Notably, she was awarded a scholarship and appointed a lecturer at the Medicinal Plants and Drugs Research Institute during her Ph.D., underscoring her early recognition as a promising scientist.

In her role as principal investigator, she has led interdisciplinary projects that integrate microbiology, phytochemistry, and biotechnology. She focuses on harnessing plant and microbial natural products, both primary and secondary metabolites, for applications ranging from food safety to pharmaceuticals. Her research translates laboratory findings into real-world applications such as essential oil-based nano-emulsions for the food and healthcare industries, and plasma, ozone, and microwave decontamination technologies for edible products including spices, vegetables, and saffron.

🧬 Contributions and Research Focus

Dr. Aliahmadi’s research portfolio is impressively broad yet interconnected by a central theme: the discovery and utilization of bioactive natural compounds for health and industrial benefits. She has made significant strides in the areas of antimicrobial and anti-biofilm compound identification, specifically targeting the growing issue of antibiotic resistance. One of her notable scientific pursuits involves elucidating the mechanisms of natural antibacterial agents using advanced analytical tools, particularly in discovering inhibitors of bacterial efflux pumps—key mechanisms by which bacteria develop resistance to antibiotics.

Her interest in nanotechnology is equally groundbreaking. She has developed essential oil-based nano-emulsions that enhance the bioavailability and efficacy of plant compounds, particularly in food preservation and medical applications. Furthermore, she has expanded her work to the field of recombinant protein development, contributing to diagnostics and therapeutic interventions.

🏆 Accolades and Recognition

Dr. Aliahmadi’s academic excellence and innovative research have not gone unnoticed. Her talent-based admission into a competitive Ph.D. program and subsequent scholarship from Shahid Beheshti University reflect early and sustained recognition of her potential. During her Ph.D. candidacy, her contributions to both research and academia were rewarded with a lecturing position, a rare accomplishment that attests to her capabilities and dedication.

Her academic output—comprising peer-reviewed journal articles and conference presentations—has bolstered her reputation as a thought leader in natural product microbiology and applied biotechnology. Her work stands at the intersection of traditional knowledge and modern science, a niche that commands growing relevance in today’s healthcare and environmental contexts.

🌍 Impact and Influence

Beyond publications and projects, Dr. Aliahmadi’s work has practical implications that resonate globally. With antibiotic resistance rising as a global health crisis, her investigations into plant-derived efflux pump inhibitors provide valuable alternatives to conventional antibiotics. Her decontamination methods using plasma radiation, ozone, and microwave technologies have direct applications in improving food safety, an essential issue for public health in both developing and developed nations.

Moreover, her nanotechnology research has opened new frontiers in natural product delivery systems, influencing food science, nutraceuticals, and drug development. As a mentor and principal investigator, she also shapes the next generation of researchers through training, supervision, and academic guidance.

🔮 Legacy and Future Contributions

Looking forward, Dr. Aliahmadi’s legacy is likely to be marked by the continued integration of nature and technology to solve pressing health and industrial problems. She is poised to further contribute to sustainable healthcare through plant-based innovations and environmentally friendly food processing technologies. With the increasing demand for safe, effective, and natural alternatives in pharmaceuticals and food industries, her multidisciplinary expertise will remain crucial.

Her future endeavors may include collaborative international projects, patentable innovations in natural antimicrobial agents, and possibly the commercial scaling of some of her decontamination and nano-emulsion technologies. Dr. Aliahmadi’s career exemplifies how deeply rooted academic inquiry, when paired with a visionary application, can yield both scientific progress and societal benefit.

Notable Publications

Superior antibacterial activity of nanoemulsion of Thymus daenensis essential oil against E. coli

Authors: R. Moghimi, L. Ghaderi, H. Rafati, A. Aliahmadi, D.J. McClements
Journal: Food Chemistry
Year: 2016

Antibacterial effect of silver nanoparticles on Staphylococcus aureus

Authors: F. Mirzajani, A. Ghassempour, A. Aliahmadi, M.A. Esmaeili
Journal: Research in Microbiology
Year: 2011

Antibacterial hydroxypropyl methyl cellulose edible films containing nanoemulsions of Thymus daenensis essential oil for food packaging

Authors: R. Moghimi, A. Aliahmadi, H. Rafati
Journal: Carbohydrate Polymers
Year: 2017

Alteration of hepatic cells glucose metabolism as a non-cholinergic detoxication mechanism in counteracting diazinon-induced oxidative stress

Authors: F. Teimouri, N. Amirkabirian, H. Esmaily, A. Mohammadirad, A. Aliahmadi, et al.
Journal: Human & Experimental Toxicology
Year: 2006

Investigations of the effectiveness of nanoemulsions from sage oil as antibacterial agents on some food borne pathogens

Authors: R. Moghimi, A. Aliahmadi, D.J. McClements, H. Rafati
Journal: LWT – Food Science and Technology
Year: 2016

Mr. Waseem Ahmed Khattak | Decision-making and Problem-solving | Best Researcher Award |

Mr. Waseem Ahmed Khattak | Decision-making and Problem-solving | Best Researcher Award

Quaid-I-Azam University, Islamabad-45320, Pakistan, Pakistan

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🌱 Early Academic Pursuits

Waseem Ahmed Khattak embarked on his academic journey with a strong inclination toward plant sciences and biological research. His Bachelor of Science in Botany from the University of Science and Technology Bannu (2017–2021) laid a solid foundation in plant physiology, microbiology, molecular biology, and environmental science. His undergraduate thesis, “Allelopathic Effect of Euphorbia Helioscopia L. Aqueous Seed Extract on Maize and Toxicity of Heavy Metal (HgCl₂) on Maize,” demonstrated early research capability and a curiosity to explore the physiological responses of crops to external stressors.

Building on this momentum, Waseem pursued a Master of Philosophy (MPhil) in Plant Sciences (2022–2024) at Quaid-i-Azam University, Islamabad, a leading institution in Pakistan. His specialization in Plant Physiology and Mycology, paired with advanced coursework in areas such as Transgenic Research, Mycosymbiosis, and Environmental Pollution, enriched his theoretical and practical understanding of contemporary plant science. His MPhil thesis titled “Impact of Chitosan Coated Urea Nanofertilizers on the Solanum Lycopersicum L. (Tomato): A Biochemical and Morphological Assessment for Enhanced Crop Production,” reflects a progressive approach toward sustainable agriculture and plant biotechnology.

🌍 Professional Endeavors

Beyond academics, Waseem has actively engaged in initiatives that reflect his commitment to interdisciplinary collaboration and applied knowledge. His involvement with the Durshal UST Bannu Startup Incubation illustrates a forward-thinking mindset, where research meets innovation. Through the Green Urban Development Pakistan project, in partnership with the US Embassy, the School of Leadership Foundation, and the Institute of Urbanism, he participated in capacity-building programs focused on sustainable environmental solutions—a testament to his interest in integrating plant sciences with urban development and ecological health.

Additionally, his participation in a Virtual Clinical Internship highlights his adaptive learning capabilities and willingness to expand his interdisciplinary knowledge base.

🧪 Contributions and Research Focus

Waseem’s research efforts are deeply rooted in exploring sustainable agricultural practices, plant-environment interactions, and the potential of nanotechnology in crop enhancement. His MPhil research, focusing on chitosan-coated urea nanofertilizers, investigates not only the biochemical and morphological changes in Solanum lycopersicum L. (tomato) but also addresses global concerns regarding food security and fertilizer efficiency.

His skills extend into multiple laboratory domains, including FTIR, UV-vis spectrophotometry, DNA extraction, elemental analysis, and nutritional profiling. These skills have allowed him to conduct in-depth phenotypic and physiological analyses. In particular, his expertise in nanofertilizer synthesis positions him at the intersection of nanotechnology and plant physiology, making his research highly relevant for modern agricultural solutions.

Waseem is also proficient with several analytical and scientific tools, such as Origin Software, ArcGIS, ChemSketch, RhizoVision, Biorender, and ANOVA (Statistic 8.1), which aid in complex data visualization and analysis—an essential asset for advanced research work.

🏅 Accolades and Recognition

Though still in the early phases of his academic career, Waseem has earned recognition through his association with reputed mentors and institutions. He is recommended by distinguished faculty members such as Assistant Professor Dr. Malka Saba, Professor Dr. Umar Masood Qureshi, and Professor Dr. Mushtaq Ahmad from Quaid-i-Azam University. Their endorsements not only speak to his academic dedication but also to the trust he has earned as a diligent and competent researcher.

Furthermore, his selection for collaborative programs supported by international organizations such as the US Embassy reflects a growing reputation beyond academic circles and into the development and policy-making landscape.

🌐 Impact and Influence

Waseem’s work is becoming increasingly impactful as it touches upon some of the most pressing issues in agricultural sustainability. By focusing on biodegradable nanofertilizers, his research addresses the critical challenge of reducing chemical fertilizer dependency while boosting crop yield and soil health. His academic focus intersects with global efforts to mitigate climate change, reduce heavy metal toxicity in food chains, and promote eco-friendly agricultural techniques.

Moreover, his earlier work on allelopathic effects and heavy metal toxicity continues to be relevant for understanding plant-plant and plant-environment interactions. This not only contributes to the field of ecological botany but also informs practical decisions in agriculture and crop management.

🌟 Legacy and Future Contributions

Looking ahead, Waseem Ahmed Khattak is poised to emerge as a leading voice in the domains of plant physiology, sustainable agriculture, and nanobiotechnology. His combined knowledge of field experimentation, advanced biochemical analysis, and digital tools sets him on a path to contribute significantly to agricultural research, especially in resource-constrained regions.

He envisions using his expertise to address challenges such as soil degradation, low crop productivity, and the environmental risks of conventional farming. Through a research-driven approach and collaborative spirit, Waseem aims to leave a lasting legacy in both academic and applied scientific communities, contributing to a greener, more sustainable future for agriculture.

Improving patient care with machine learning: A game-changer for healthcare

Authors: AH Shahid, WA Khattak
Journal: Appl Res Artif Intell Cloud Comp
Year: 2022

Ethical considerations and challenges in the deployment of natural language processing systems in healthcare

Authors: WA Khattak, F Rabbi
Journal: International Journal of Applied Health Care Analytics
Year: 2023

Enhancing urban health: machine learning applications in environmental management

Authors: I Malik, WA Khattak
Journal: Journal of Sustainable Infrastructure for Cities and Societies
Year: 2023

Personalized healthcare in the age of AI: A comprehensive overview of its applications and limitations

Authors: MM Amri, V Kumar, WA Khattak, D Pandey, A Kundu
Journal: International Journal of Intelligent Automation and Computing
Year: 2021

Mitigating heavy metal pollution in agriculture: A multi-omics and nanotechnology approach to safeguard global wheat production

Authors: M Anas, WA Khattak, S Fahad, N Alrawiq, HS Alrawiq, NR Abdelsalam, …
Journal: Journal of Hazardous Materials Advances
Year: 2024

Dr. Muhammad Shahid | Best Researcher Award | Best Researcher Award

Dr. Muhammad Shahid | Best Researcher Award | Best Researcher Award

KFUPM, Saudi Arabia

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🎓 Early Academic Pursuits

Muhammad Shahid’s academic journey is marked by determination, intellectual curiosity, and a deep commitment to solving real-world energy problems through scientific rigor. Hailing from Lahore, Pakistan, Shahid demonstrated an early interest in the technical sciences, particularly in energy systems, which are pivotal to national development and economic growth. His formal education in engineering laid the groundwork for a lifelong passion for sustainable energy planning. Over time, his academic interests matured into a specialized focus on energy forecasting, environmental sustainability, and policy-oriented research.

What set Shahid apart during his academic development was his fascination with energy modeling frameworks, particularly the LEAP (Long-range Energy Alternatives Planning) system. This tool, known for its robust application in forecasting and backcasting national energy demands, became central to Shahid’s methodological approach. Through formal education and persistent self-driven learning, he gained proficiency in using simulation models to analyze complex interrelations between energy supply, demand, and environmental impacts. His academic pursuits were never confined to the classroom but expanded into research collaborations, scholarly debates, and hands-on projects that connected theory with national-level policy challenges.

💼 Professional Endeavors

Currently associated with King Fahd University of Petroleum and Minerals (KFUPM) in Saudi Arabia, Muhammad Shahid is engaged in a broad range of professional and research activities that span borders and disciplines. His work addresses the nexus of energy security, environmental emissions, and economic sustainability—fields of critical importance to both developed and developing nations. Through his affiliations, he has been able to integrate academic inquiry with practical, policy-relevant solutions aimed at mitigating the energy crises facing countries like Pakistan.

His research at KFUPM, complemented by extensive collaborations in Pakistan and internationally, highlights his role as both a scholar and a practitioner. He is deeply involved in energy policy modeling, renewable energy integration, and emissions forecasting, using a suite of analytical tools and approaches including LEAP and Multi-Criteria Decision-Making Analysis (MCDMA). His research not only provides insight into energy trends but also suggests actionable pathways toward achieving a sustainable, low-carbon future.

📚 Contributions and Research Focus

Muhammad Shahid’s research portfolio reflects a deliberate and thoughtful engagement with pressing energy challenges. His contributions have focused on the integration of forecasting models, policy planning tools, and environmental assessment techniques. Among his recent works is a highly impactful study titled “Solar PV End-of-Life Waste Recycling: An Assessment of Mechanical Recycling Methods and Proposed Hybrid Laser and High Voltage Pulse Crushing Method,” published in Resources (2024). This publication, in an ISI-indexed Q2 journal, introduces a forward-looking methodology to handle the mounting waste challenges from solar photovoltaic systems—an issue critical to the sustainability of renewable energy technologies.

In addition to his published work, several of Shahid’s manuscripts are currently under review in high-impact journals such as Fuel, Energy, Utilities Policy, and Renewable Energy. These papers delve into subjects like integrated fuel demand in Pakistan, sustainable energy supply modeling, environmental emissions reduction strategies, and long-term policy planning using LEAP-based frameworks. Through these studies, Shahid positions himself at the intersection of academia, engineering, and policymaking.

His collaborations with renowned co-authors and institutions underscore his research’s interdisciplinary nature and global relevance. He is actively contributing to discourses that aim to reshape how countries approach energy diversification, resource planning, and climate resilience.

🏅 Accolades and Recognition

Shahid’s growing body of scholarly work has earned him significant recognition within the academic community. His publications are not only accepted by reputable international journals but are also increasingly cited, reflecting their importance to current and emerging energy discourses. His reputation as a modeling expert and energy strategist has led to invitations to co-author international projects and participate in key discussions on sustainable development. Though early in his career, the depth and quality of his work speak volumes about his academic integrity and future potential.

His presence in international research networks and peer-reviewed outlets also signals a broader acknowledgment of his expertise. By combining local insights with global standards, Shahid has carved a unique space for himself in the academic and policy-driven worlds of energy research.

🌍 Impact and Influence

The impact of Muhammad Shahid’s work can be seen across academic, governmental, and environmental landscapes. In Pakistan, his research serves as a guiding tool for understanding how integrated energy systems can lead to more resilient and sustainable infrastructure. His models have practical applications, such as identifying low-emission energy pathways, planning green transport systems, and evaluating the lifecycle of renewable technologies like solar PV.

Globally, Shahid’s contributions are resonating with a wider community of scholars and practitioners working on energy justice and environmental protection. By blending quantitative models with qualitative policy evaluations, his work bridges the gap between theory and practice, offering solutions that are technically sound and socially equitable.

His proposed frameworks, particularly those utilizing backcasting and hybrid modeling, are becoming instrumental tools in energy scenario planning. These innovations enhance the ability of stakeholders to navigate the complex and rapidly changing landscape of global energy systems.

🌱 Legacy and Future Contributions

As he continues to advance in his career, Muhammad Shahid is poised to become a leading voice in the transition toward clean, reliable, and inclusive energy systems. His legacy is already taking shape through the frameworks he has introduced and the insights he has offered into the management of energy and environmental resources. Looking ahead, his future work is likely to expand into areas such as AI-driven energy analytics, climate-resilient infrastructure planning, and circular economy models for renewable waste.

His vision extends beyond academic boundaries, aiming to inform real-world decision-making and foster sustainable development at the grassroots and national levels. With a deep sense of responsibility toward both his homeland and the global community, Muhammad Shahid’s future contributions promise to be as impactful and innovative as his current accomplishments.

🔬 Energy Security and Renewable Energy Policy Analysis of Pakistan

Authors: T. Aized, M. Shahid, A.A. Bhatti, M. Saleem, G. Anandarajah
Journal: Renewable and Sustainable Energy Reviews, Vol. 84, pp. 155–169
Year: 2018 | Citations: 237

Electricity Supply Pathways Based on Renewable Resources: A Sustainable Energy Future for Pakistan

Authors: M. Shahid, K. Ullah, K. Imran, I. Mahmood, A. Mahmood
Journal: Journal of Cleaner Production, Vol. 263, 121511
Year: 2020 | Citations: 63
📌 A model-based exploration of renewable electricity scenarios using LEAP for sustainability.

📈 LEAP Simulated Economic Evaluation of Sustainable Scenarios to Fulfill the Regional Electricity Demand in Pakistan

Authors: M. Shahid, K. Ullah, K. Imran, A. Mahmood, M. Arentsen
Journal: Sustainable Energy Technologies and Assessments, Vol. 46, 101292
Year: 2021 | Citations: 46

🧱 Assessment of Long-term Energy and Environmental Impacts of the Cleaner Technologies for Brick Production

Authors: A. Abbas, M.B. Sajid, M.A. Iftikhar, A.H. Khoja, M.M. Ahmad, M. Shahid, K. Ullah
Journal: Energy Reports, Vol. 7, pp. 7157–7169
Year: 2021 | Citations: 35


🚗 Economic and Environmental Analysis of Green Transport Penetration in Pakistan

Authors: M. Shahid, K. Ullah, K. Imran, N. Masroor, M.B. Sajid
Journal: Energy Policy, Vol. 166, 113040
Year: 2022 | Citations: 21
📌 Quantifies green vehicle integration in terms of emissions and economics using energy models.

🔋 The Long-term Forecast of Gilgit Baltistan (GB)’s Electricity Demand

Authors: A. Hussain, K. Ullah, U. Perwez, M. Shahid
Conference: 2018 International Conference on Power Generation Systems and Renewable Energy Technologies
Year: 2018 | Citations: 14

Prof Dr. Chengming Wang |Decision-making and Problem-solving | Best Researcher Award

Prof Dr. Chengming Wang |Decision-making and Problem-solving | Best Researcher Award

Huazhong Agricultural University, China

Author Profile

Scopus 

🌱 Early Academic Pursuits

Professor Chengming Wang’s academic journey began with a strong foundation in analytical chemistry at Wuhan University, where he earned both his Bachelor of Science (1983–1987) and Master of Science (1987–1990) degrees. His fascination with chemistry and its practical applications led him to further explore the interrelationship between material science and food engineering. Pursuing his academic interests across borders, he earned a Ph.D. in Material Engineering from Fukui University in Japan (2000–2003), where he delved deeper into applied material research. His multidisciplinary background provided a powerful platform to bridge the gap between food chemistry, materials, and engineering innovations. He later returned to Huazhong Agricultural University as a postdoctoral fellow (2004–2006) in Food Science and Engineering, marking the beginning of a prolific career in academic research and technological development.

👨‍🔬 Professional Endeavors

Currently a full professor at Huazhong Agricultural University, Professor Wang has made an indelible mark in the field of oils and fats processing and the comprehensive utilization of by-products. His career spans cutting-edge research, patentable innovation, academic leadership, and international collaboration. Over the years, he has become known not only for his deep expertise in processing edible oils but also for his systematic studies of plant-based proteins, polysaccharides, polyphenols, and biofuels. His work has consistently aligned with global sustainability goals by turning agricultural waste and by-products into valuable resources. This fusion of innovation and ecological responsibility has distinguished Professor Wang as a leader in food science and bioenergy.

🔬 Contributions and Research Focus

Professor Wang’s research is a vivid tapestry of innovation and applied science. At the heart of his work lies a deep exploration into low-temperature ethanol steam deodorization, decolorization using mesoporous solids, bifunctional catalysis for biodiesel, and detection technologies for gutter oil. He has made significant strides in unlocking the potential of agricultural by-products such as rapeseed, peanut, cottonseed, tea seed, and Pistacia chinensis.

His studies on rapeseed meal detoxification and value addition are particularly groundbreaking. Through the removal of anti-nutritional factors like glucosinolate, sinapine, and phytic acid, and the harnessing of bioactive compounds such as rapeseed protein, polyphenols, and polysaccharides, he has paved the way for the development of probiotic animal feed and nutraceuticals. Similarly, his pioneering work in peanut protein and beverage development, cottonseed detoxification, and tea seed meal applications has advanced the frontier of sustainable food systems.

Professor Wang also stands at the forefront of green energy research, where he has developed scalable solutions for converting waste oils and plant residues into biodiesel and liquid fuels, contributing to China’s growing bioenergy sector.

🏅 Accolades and Recognition

Professor Wang’s contributions have not gone unnoticed. He has authored more than 100 academic papers in renowned journals and has been a corresponding or first author on most of them, reflecting his leadership in research. He has published two influential monographs and has been granted 16 invention patents as the first inventor, showcasing his commitment to translating academic theory into industrial innovation.

His work has been supported by prestigious funding bodies, including the Ministry of Education in Japan, the National Natural Science Foundation of China, and the National Key R&D Program of China. He has also been entrusted with major provincial science and technology research projects and received support from the China Postdoctoral Science Foundation and the Ministry of Education’s starting fund for returned overseas scholars.

🌍 Impact and Influence

Professor Wang’s research has not only transformed the field of oils and fats processing but has also made a significant impact on rural economies, environmental sustainability, and global food security. His commitment to the comprehensive utilization of agricultural by-products has fostered innovation-driven development in China’s agro-industrial sectors. Many of his research outcomes have gone beyond the lab, moving into pilot-scale and industrial-level applications, particularly in biodiesel production from waste oils and plant-based functional products. These implementations are improving the efficiency of the food processing industry and contributing to a more sustainable bioeconomy.

Furthermore, Professor Wang has mentored numerous graduate and doctoral students, inspiring the next generation of scientists to pursue applied, responsible, and interdisciplinary research.

🌟 Legacy and Future Contributions

As a respected thought leader in food science and sustainable technology, Professor Chengming Wang continues to redefine possibilities in the biotransformation of agricultural waste into high-value products. His career reflects a remarkable blend of academic excellence, patent-worthy innovation, and real-world impact. Looking forward, he aims to deepen international collaborations, expand applications of bio-functional compounds, and contribute further to the development of eco-friendly, zero-waste food processing technologies.

His work serves as a model for future scientists seeking to balance scientific rigor, environmental responsibility, and economic relevance—a legacy of innovation that will inspire research and policy for decades to come. 🚀

Mechanisms of deodorizing rapeseed oil with ethanol steam at a low temperature: A focus on free fatty acids, tocopherols, and phytosterols

Authors: Dong, Yiyang; Liu, Fangrong; Li, Wenlin; Wang, Chengming
Journal: Food Chemistry
Year: 2025

 Bleaching of Idesia polycarpa Maxim. Oil Using a Metal-Organic Framework-Based Adsorbent: Kinetics and Adsorption Isotherms

Authors: Dong, Yiyang; Wang, Chengming; Liu, Fangrong; Niu, Aifeng
Journal: Foods
Year: 2025

Dr. SHAOPING JIANG | Cross-Cultural Leadership | Global Leadership Impact Award

Dr. SHAOPING JIANG | Cross-Cultural Leadership | Global Leadership Impact Award

Author Profile 

Scopus  

🌱 Early Academic Pursuits

Your academic journey began with a strong commitment to understanding the complex dynamics of law, sustainability, and social responsibility. Early on, you displayed a passion for bridging the gap between legal frameworks and real-world environmental challenges—an interest that would later evolve into a distinguished career. With a solid educational foundation that blends legal scholarship and policy awareness, you were well-positioned to make an impact on both academic and legislative fronts. This foundational period laid the groundwork for your current multidisciplinary research that lies at the intersection of environmental law, corporate social responsibility (CSR), and policy innovation. 🌍📚

💼 Professional Endeavors

Today, as an Associate Research Fellow at the Institute of Ecological Civilization at Zhejiang Agriculture and Forestry University (ZAFU), you are at the forefront of ecological research and policy design. The Institute, a nationally recognized think tank, serves as a vital platform for environmental science and sustainability in China, and your role there underscores your leadership in the field. Simultaneously, your directorship at the Zhejiang Province Foreign-Related Legal Talents Cultivating Base demonstrates your dedication to nurturing the next generation of global legal professionals. As a master’s supervisor at the School of Humanities and Law, you guide students with your interdisciplinary knowledge and encourage them to think critically about green development, justice, and governance. 👩‍🏫🌐

🧠 Contributions and Research Focus

Your research stands out for its innovative integration of CSR, sustainability policy, and behavioral change—particularly within the service industry. You have led multiple provincial and ministerial-level projects that aim to reform and optimize China’s business environment, showing a keen understanding of how law and policy intersect with economic development. Notably, you contributed to the drafting of the Regulation of Zhejiang Province on the Promotion of the Express Delivery Industry, highlighting your involvement in policy-making that directly affects industry practices and environmental performance.

As a scholar, your publications are impactful and internationally recognized. The article “Corporate Social Responsibility Needs Base Philosophy: An Integrative Multidimensional Approach to Hospitality Employees’ Green Behavior” (SSCI Q1, IF 11.7) offers a new framework for understanding how internal motivations shape environmental conduct in the hospitality sector. You also delve into broader economic and ecological questions, such as your work in “Tourism Subindustry Level Environmental Impacts in the US” and “Does the Tourism and Travel Industry Really Matter to Economic Growth and Environmental Degradation in the US?”—both significant contributions to the literature on tourism sustainability and environmental economics. 📑🔬

🏅 Accolades and Recognition

Your commitment to excellence has been widely recognized. You are a member of the prestigious High-Level Talent Program in Hangzhou, an acknowledgment of your leadership and innovation in academic research. Furthermore, your role as a peer reviewer for Humanities & Social Sciences Communications, a journal under the Nature portfolio, speaks volumes about your credibility and standing within the global scholarly community. Additionally, your advisory position at SINOTALKS®, founded by Dr. Mei Gechlik (formerly of Stanford Law School’s China Guiding Cases Project), places you within a select group of thought leaders who are actively shaping international understanding of Chinese law and policy. 🏆🌐

🌍 Impact and Influence

Your influence goes beyond research papers and policy documents. As the Director of the Zhejiang Province Foreign-Related Legal Talents Cultivating Base, you play a key role in facilitating legal diplomacy through international conferences and competitions. By addressing ecological justice, the Belt and Road Initiative (BRI), and comparative climate policy between China and the United States, you create platforms for global exchange and mutual learning. Your work not only informs policy but also transforms how students, academics, and legal professionals approach sustainability challenges. 🔄🧑‍⚖️

✨ Legacy and Future Contributions

Looking ahead, your legacy is one of bridge-building—between disciplines, nations, and generations. Whether mentoring students, shaping policy, or contributing to international dialogues, your work exemplifies the values of sustainability, equity, and collaboration. As China and the world face increasing environmental challenges, your voice will remain essential in guiding green policy, responsible business practices, and sustainable governance.

📝Notable Publications

 Corporate Social Responsibility Needs Base Philosophy: An Integrative Multidimensional Approach to Hospitality Employees’ Green Innovative Behaviors

Authors: Jiang, Shaoping; Bibi, Sughra; Lyu, Jiaying; Khan, Asif; Li, Zhichen
Journal: International Journal of Hospitality Management
Year: 2025

Dr. Abdulwahab Salah | Innovative Leadership | Best Researcher Award

Dr. Abdulwahab Salah | Innovative Leadership | Best Researcher Award

Author Profile 

Google Scholar 

🎓 Early Academic Pursuits

Dr. Abdulwahab Ali Hussein Salah’s academic journey began with exceptional promise, marked by a strong foundation in chemistry. He earned his Bachelor of Science in Chemistry from Sana’a University in Yemen in 2005, graduating with honors and ranking first in his class with an impressive overall score of 88.57%. This early distinction foreshadowed his future trajectory in academic excellence. Driven by a deep passion for chemistry, he continued his studies in China, pursuing both his M.Sc. and Ph.D. degrees at the prestigious Northeast Normal University. His Master’s degree in Analytical Chemistry, completed with a stellar 94.0% score, focused on the innovative synthesis and application of noble metal nanoparticles and nitrogen-doped porous graphene composites for electrochemical sensors. This work laid the groundwork for his growing interest in electrochemistry and materials science. Building on this, he advanced to a Ph.D. program in Inorganic Chemistry, where he achieved an exceptional score of 95.13%, completing a thesis on “Advanced Electrocatalysts of Ruthenium-Based Composites: Synthesis, Characterization, and Application for Green Hydrogen Production.” Under the supervision of Prof. Dr. Yang-Guang Li, he honed his skills in electrocatalysis and energy-related applications, setting the stage for a career dedicated to sustainable energy research.

💼 Professional Endeavors

After completing his doctorate, Dr. Salah embarked on his professional career as a Postdoctoral Fellow in early 2024. He currently serves at King Fahd University of Petroleum and Minerals (KFUPM) in Saudi Arabia, where he continues to engage in high-impact research focused on sustainable and green technologies. His postdoctoral work continues to reflect the academic rigor and intellectual curiosity that has marked his career thus far. At KFUPM, he has access to world-class research facilities and collaborates with a global community of scientists and scholars, further broadening the scope and relevance of his scientific inquiry.

🔬 Contributions and Research Focus

Dr. Salah’s research lies at the exciting intersection of inorganic chemistry, materials science, and electrochemical energy conversion. His primary focus has been on the development of ruthenium-based electrocatalysts for green hydrogen production, a field critical to the global transition toward clean and renewable energy sources. His doctoral work contributed new insights into the structural and functional optimization of these catalysts, targeting cost-effectiveness and scalability for real-world applications. Furthermore, his earlier contributions to electrochemical sensor technology—using advanced graphene-based nanocomposites—demonstrate his versatility as a chemist. His work addresses some of the most urgent challenges of our time, including energy storage, conversion efficiency, and environmental sustainability. These themes are especially critical for countries and regions striving for energy security and carbon neutrality.

🏆 Accolades and Recognition

Dr. Salah’s academic excellence is reflected in his outstanding grades and academic achievements across all levels of education. He has consistently ranked at the top of his cohort, demonstrating a high level of discipline and intellectual ability. His research contributions have been recognized through inclusion in international research platforms such as ORCID, Web of Science, and Google Scholar. His growing number of citations and scholarly collaborations highlight the relevance of his work within the global scientific community. Additionally, his professional association with KFUPM—a leading university in science and engineering—underscores his position as a respected figure in the academic and research fields of chemistry and energy materials.

🌍 Impact and Influence

Dr. Salah’s research has implications that extend well beyond the laboratory. By focusing on cost-effective and efficient electrocatalysts for hydrogen production, he is contributing to the development of sustainable energy systems that could power future societies. In regions with high energy demand and limited renewable infrastructure, such as the Middle East and North Africa, his work can help shift energy paradigms and reduce dependency on fossil fuels. His academic journey—from Yemen to China and now Saudi Arabia—illustrates not only his international outlook but also his potential to bridge scientific innovation across diverse geopolitical regions.

🔮 Legacy and Future Contributions

Looking ahead, Dr. Abdulwahab Salah is poised to make even greater contributions to the field of energy materials and electrochemistry. His solid grounding in both fundamental science and applied technology places him at a strategic advantage in addressing complex energy challenges. As he continues to publish and collaborate internationally, his influence is expected to grow in both academic and industrial spheres. Dr. Salah is also well-positioned to mentor the next generation of researchers in sustainable chemistry, passing on his expertise and commitment to excellence. His career thus far stands as a beacon of perseverance, innovation, and purpose—qualities that define a true scientific leader.

📝Notable Publications

Advanced Ru/i/WC@NPC Multi‐Interfacial Electrocatalyst for Efficient Sustainable Hydrogen and Chlor‐Alkali Co‐Production

Author(s): A. Salah, L. Zhang, H. Tan, F. Yu, Z. Lang, N. Al‐Ansi, Y. Li
Journal: Advanced Energy Materials
Year: 2022

 Tetraphenylethylene-based covalent organic frameworks as fluorescent chemosensor for rapid sensitive recognition and selective “turn-on” fluorescence detection of trace-level analytes

Author(s): J. Xiu, N. Zhang, C. Li, A. Salah, G. Wang
Journal: Microporous and Mesoporous Materials
Year: 2021

 Ru/Mo₂C@NC Schottky Junction-Loaded Hollow Nanosphere as Efficient Hydrogen Evolution Electrocatalyst

Author(s): A. Salah, H.D. Ren, N. Al-Ansi, F. Yu, Z.L. Lang, Y.G. Tan, H. Li
Journal: Journal of Materials Chemistry A
Year: 2021

Fabrication of folate functionalized polyoxometalate nanoparticle to simultaneously detect H₂O₂ and sarcosine in colorimetry

Author(s): B. Mbage, Y. Li, H. Si, X. Zhang, Y. Li, X. Wang, A. Salah, K. Zhang
Journal: Sensors and Actuators B: Chemical
Year: 2020

 Pt nanoparticles supported on nitrogen-doped porous graphene for sensitive detection of Tadalafil

Author(s): A. Salah, M. Hassan, J. Liu, M. Li, X. Bo, J.C. Ndamanisha, L. Guo
Journal: Journal of Colloid and Interface Science
Year: 2018

Dr. Ntalane Sello Seroka | Innovative Leadership | Best Researcher Award

Dr. Ntalane Sello Seroka | Innovative Leadership | Best Researcher Award

CSIR, South Africa

Author Profile 

Scopus

🎓 Early Academic Pursuits

Dr. Ntalane Sello Seroka’s journey into the world of science and innovation began with a solid foundation in the physical sciences. He earned his Bachelor of Science (BSc) in Physical Sciences from Sefako Makgatho Health Sciences University in Ga-Rankuwa, South Africa, in 2016. Driven by a profound curiosity for chemistry and a passion to harness science for societal good, he advanced to complete his BSc Honours in Chemistry at the same institution in 2017.

His academic trajectory continued upward with a Master of Science degree in Chemistry from the University of Johannesburg in 2019, where he conducted research under the supervision of Prof. M.A. Mamo. His MSc laid the groundwork for deeper investigations into sustainable materials and nanoscience. This academic foundation culminated in a Ph.D. in Chemistry in 2023, with a thesis focused on the green synthesis of novel polycrystalline silicon. This research, anchored in environmental consciousness and technological innovation, marked the beginning of his impactful contributions to sustainable energy solutions in Africa.

🧪 Professional Endeavors

Currently, Dr. Seroka serves as a Postdoctoral Research Fellow under the prestigious National Research Foundation’s Professional Development Programme (NRF-PDP) at the Council for Scientific and Industrial Research (CSIR) in Pretoria, South Africa. Based at the CSIR’s Energy Centre within the Smart Places Cluster, his research falls under the mentorship of Dr. Luo Hongze in the Electrochemical Energy Technologies group.

At CSIR, Dr. Seroka’s work is deeply embedded in the development of innovative, affordable energy storage systems. He fabricates high-performance electrode materials using biomass waste, aiming to optimize cathodes and anodes for lithium-ion batteries. His work extends into exploring biochar-based catalyst supports for fuel cells—including direct methanol and polymer electrolyte membrane types—as well as exploring alternative battery technologies such as sodium-ion and zinc-ion systems.

This combination of sustainability, nanotechnology, and energy research is not only cutting-edge but purpose-driven, targeting the real energy challenges faced by impoverished communities across Africa.

🔬 Contributions and Research Focus

Dr. Seroka’s scientific contributions span a wide range of fields within materials chemistry and energy technologies. His research focuses on creating low-cost, environmentally friendly materials for energy storage and conversion. He is particularly skilled in developing electroactive nanocomposites and interfacial electronic devices using silicon-based thin films sourced from biomass.

With 24 international peer-reviewed journal articles to his name, Dr. Seroka has carved out a significant niche in green energy materials. His technical proficiency covers a broad array of electrochemical, analytical, and materials characterization techniques—competencies honed in CSIR’s state-of-the-art laboratories.

In addition to his research, he plays a significant academic role as a co-supervisor to six MSc and six Ph.D. students at the University of the Western Cape. He has already successfully supervised five MSc and one Ph.D. student, a testament to his commitment to nurturing the next generation of African scientists.

🏅 Accolades and Recognition

Dr. Seroka’s pioneering work has not gone unnoticed. In 2024, he achieved international acclaim by winning First Prize in the “Beautiful China, Dynamic Huzhou” Global Youth Innovation and Entrepreneurship Competition – African Division. That same year, he was nominated for the prestigious USERN (Universal Scientific Education and Research Network) Prize, which recognizes exceptional early-career scientists for their contributions to science and society.

He is a member of the South African Chemical Institute (SACI) and maintains active researcher profiles across platforms. His citation metrics include a Scopus H-index of 7, a Google Scholar H-index of 8, and an i-10 index of 6, highlighting both the impact and consistency of his scholarly output.

🌍 Impact and Influence

Through his research, mentorship, and collaborative endeavors, Dr. Seroka has contributed meaningfully to both national and international scientific communities. His work on bio-based silicon materials and sustainable electrode design offers promising solutions for energy access in underdeveloped regions—especially vital in areas where traditional infrastructure is lacking.

His research helps bridge the gap between scientific discovery and practical implementation, particularly in rural African communities. By combining chemistry, nanoscience, and renewable energy, Dr. Seroka’s influence extends beyond academic circles to include social and environmental impact.

🔮 Legacy and Future Contributions

Looking ahead, Dr. Seroka stands as a leading light in the drive toward sustainable energy in Africa. His vision is clear: to develop low-cost, high-performance energy technologies using locally available and renewable resources. His research agenda is poised to not only advance the frontiers of materials chemistry but also catalyze real-world solutions to pressing energy problems.

Through continued collaboration, publication, mentorship, and innovation, Dr. Seroka’s legacy will be one of empowerment—scientific advancement that fuels communities and transforms lives.

📝Notable Publications

Characterization of ZrC-V-Ti-ZrC multilayer hydrogen storage thin films prepared by e-beam evaporator

Authors: M.M. Rampai, C.B. Mtshali, E. Nemukula, N.S. Seroka, L.E. Khotseng
Journal: International Journal of Hydrogen Energy
Year: 2025

Sujeet Mishra-Innovative Leadership-Best Researcher Award

Sujeet Mishra-Innovative Leadership-Best Researcher Award

CCRAS-India 

Author Profile 

Early Academic Pursuits

Dr. Sujeet Kumar Mishra pursued his academic journey in Chemistry, earning his Master of Science (M.Sc.) in Chemistry from Delhi University in 2009. Subsequently, he pursued a Ph.D. in Applied Chemistry from CSIR-NPL and Delhi Technological University, completing his doctoral research on the synthesis and characterization of biocompatible inorganic/organic nanocomposite materials for sensor applications.

Professional Endeavors

After completing his Ph.D. in 2014, Dr. Mishra served as an Assistant Professor at Ramjas College, Delhi University, from August 2014 to January 2021. Additionally, he took on roles as a Guest Lecturer at Delhi Technological University and Bhaskaracharya College of Applied Sciences during the period from April 2014 to July 2014.

Since February 2021, Dr. Mishra has been contributing to the field as a Research Officer (Scientist) under the Central Council for Research in Ayurvedic Sciences (CCRAS), Ministry of AYUSH, Government of India.

Contributions and Research Focus

Dr. Sujeet Kumar Mishra has made significant contributions in the fields of Nanomaterials, Phytochemistry, Analytical Chemistry, and Quality Control. His research projects and publications reflect a focus on the development and application of advanced materials for sensor technologies. Notably, his work includes the synthesis of nanomaterials, electrochemical impedance immunosensors, and the characterization of various nanocomposites.

His research endeavors also extend to Ayurvedic sciences, as evident from his involvement in projects related to the development of Ayurvedic raw drugs, drug master files, and quality standards for Ayurvedic plants.

Accolades and Recognition

Dr. Mishra has received several awards and fellowships, including the CSIR-NET JRF in Chemical Sciences and the Excellence in Academic/Research Award from the Directorate of Higher Education, Government of NCT Delhi.

His commitment to academic and research excellence is further highlighted by his Google Scholar profile with an H-Index of 10 and i-10 index of 10, showcasing the impact of his research in the scientific community.

Impact and Influence

Dr. Mishra's research has been published in reputable journals, with a total of 20 publications, 2 books, and 3 e-modules. His work covers diverse topics such as electrochemical immunosensors, nanocomposites, and advanced nanomaterials.

As a reviewer for various SCI journals, including Elsevier, Springer, ACS, RSC, Sage, and Bentham Science, he actively contributes to the peer-review process, influencing the quality and rigor of scientific publications.

Legacy and Future Contributions

Dr. Sujeet Kumar Mishra's legacy lies in his multidisciplinary contributions to the fields of chemistry, nanotechnology, and Ayurvedic sciences. His extensive research, project leadership, and involvement in various committees at CARI, Jhansi, demonstrate a commitment to advancing scientific knowledge and promoting quality standards in Ayurveda.

Looking forward, Dr. Mishra's future contributions are likely to continue shaping the landscape of nanomaterials, sensor technologies, and Ayurvedic research, further establishing his impact in both academia and applied sciences.

Notable Publications