Assoc. Prof. Dr. Hanie Abbaslou – Circular Economy – Women Researcher Award

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Assoc. Prof. Dr. Hanie Abbaslou - Circular Economy - Women Researcher Award

Sirjan University of technology - Iran

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Summary

Hanie Abbaslou is a dedicated academic and researcher whose work bridges multiple disciplines including soil sciences, environmental engineering, energy systems, and artificial intelligence. her dual ph.d. qualifications and extensive academic journey reflect a passion for addressing complex environmental challenges through innovative solutions. her research focuses on topics such as environmental accounting, carbon capture and storage, bioenergy, geochemistry, and the circular economy. notably, she integrates modern technologies such as power electronics into her investigations, enhancing the effectiveness of energy and environmental systems. as an associate professor, she also contributes significantly to teaching, mentoring, and guiding future engineers and scientists in sustainable practices.

Early academic pursuits

Hanie Abbaslou began her academic journey in the field of soil sciences, completing her bachelor's degree at shiraz university, iran, in 2007. her passion for environmental and geochemical studies led her to pursue a master’s degree in the same field at the same institution, graduating in 2010. demonstrating a consistent dedication to expanding her knowledge base, she obtained her first ph.d. in soil sciences from Circular Economy shiraz university in 2014. further broadening her multidisciplinary expertise, she earned a second master’s degree in artificial intelligence from shahrood university in 2024 and is currently pursuing a second ph.d. in energy systems at the university of tehran, expected in 2025. this diverse academic background uniquely positions her at the intersection of environmental science, energy systems, and power electronics.

Professional endeavors

As an associate professor in the department of civil & environmental engineering at sirjan university of technology, hanie abbaslou has committed herself to both teaching and research excellence. her professional journey reflects a blend of academic rigor and industrial relevance, with a clear focus on emerging technologies such as carbon capture, bioenergy solutions, and circular economy applications. her role Circular Economy also involves mentoring young researchers and students in the fields of geochemistry and environmental engineering, while integrating modern tools including artificial intelligence and power electronics into her curriculum and research projects.

Contributions and research focus

Abbaslou's contributions extend across several crucial domains such as environmental accounting, energy-environment interactions, and problematic soil management. her research emphasizes the development and application of nano-clays, advanced clays, and sustainable energy solutions. her work on carbon capture and storage reflects a keen interest in mitigating environmental degradation while promoting renewable energy technologies. increasingly, her investigations incorporate artificial intelligence and power electronics to optimize environmental Circular Economy processes and energy systems for practical, scalable applications.

Impact and influence

Through her multidisciplinary approach combining soil sciences, energy systems, and circular economic models, hanie abbaslou has established herself as an influential figure in the academic community. her integration of power electronics into environmental engineering practices has opened new pathways for sustainable energy management. her efforts in bridging geochemistry with Circular Economy bioenergy and carbon technologies have informed both scientific discourse and practical implementations in environmental preservation and resource optimization.

Academic cites

Hanie Abbaslou maintains active academic profiles on platforms such as google scholars, researchgate, and linkedin, where her research outputs are widely cited by peers in soil science, environmental engineering, and energy systems. her scholarly works not only contribute to theoretical advancements but also offer valuable insights for industrial applications in fields like bioenergy production Circular Economy, problematic soil stabilization, and power electronics for environmental monitoring systems.

Legacy and future contributions

Looking ahead, hanie abbaslou envisions expanding her research in environmental accounting and circular economic strategies while leveraging the transformative potential of artificial intelligence and power electronics. her future contributions are expected to drive innovations in carbon capture methods and bioenergy technologies that can respond to pressing global environmental challenges. by Circular Economy fostering cross-disciplinary collaborations and mentoring the next generation of engineers and scientists, she aims to leave a lasting legacy in the fields of environmental sustainability and energy systems.

Notable Publications

  1. Title: Synthesis, characterization and evaluation of biochar from agricultural waste biomass for use in building materials
    Authors: Z.A. Zeidabadi, S. Bakhtiari, H. Abbaslou, A.R. Ghanizadeh
    Journal: Construction and Building Materials

  2. Title: Modeling of bentonite/sepiolite plastic concrete compressive strength using artificial neural network and support vector machine
    Authors: A.R. Ghanizadeh, H. Abbaslou, A.T. Amlashi, P. Alidoust
    Journal: Frontiers of Structural and Civil Engineering

  3. Title: The compatibility of bentonite/sepiolite plastic concrete cut-off wall material
    Authors: H. Abbaslou, A.R. Ghanizadeh, A.T. Amlashi
    Journal: Construction and Building Materials

  4. Title: Effect of cations and anions on flocculation of dispersive clayey soils
    Authors: H. Abbaslou, H. Hadifard, A.R. Ghanizadeh
    Journal: Heliyon

  5. Title: Trace element concentrations and background values in the arid soils of Hormozgan Province of southern Iran
    Authors: H. Abbaslou, F. Martin, A. Abtahi, F. Moore
    Journal: Archives of Agronomy and Soil Science

Conclusion

Through her diverse expertise and forward-thinking approach, hanie abbaslou has become a respected figure in the academic and scientific community. her ability to combine traditional environmental studies with emerging technologies like artificial intelligence and power electronics has set her apart as a leader in her field. moving forward, her contributions are expected to shape sustainable energy solutions and environmental strategies that address both local and global challenges. her work will likely continue to influence advancements in power electronics applications within energy systems and environmental monitoring, ensuring lasting impact and relevance in the evolving landscape of civil and environmental engineering.

Dr. Philani Zincume – Future Work – Best Researcher Award

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Dr. Philani Zincume - Future Work - Best Researcher Award

Stellenbosch University - South Africa

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Summary

Dr. Philani Nduna Zincume is a distinguished academic and professional with a strong foundation in electrical engineering, operations management, and industrial engineering. his early academic journey laid emphasis on electrical systems and power electronics, later evolving into a broader focus on operations efficiency and organisational behaviour. with over eight years of hands-on industrial experience at prasa and a subsequent academic career at stellenbosch university, dr. zincume has successfully bridged industrial practice with academic rigour. his research contributions, particularly in supervisor effectiveness models and industrial policy analysis, have enriched the field of operations management. his involvement in youth mentorship and leadership development reflects his dedication to societal progress alongside academic excellence.

Early academic pursuits

Dr. Philani Nduna Zincume’s academic foundation is rooted in engineering excellence, beginning with his matriculation at tisand technical high school in 2002. he pursued a bachelor of science in electrical engineering at the university of cape town, where his studies emphasized critical domains such as power systems analysis & control, electric machines, and notably, power electronics—an area pivotal to modern industrial processes. Future Work his passion for operational efficiency and industrial systems led him to complete a master’s in engineering management cum laude, focusing on service quality in commuter rail systems within cape town. he further advanced his expertise with a doctorate in industrial engineering from stellenbosch university, developing a front-line supervisor effectiveness model tailored for engineering team-based organisations.

Professional endeavors

Dr. Zincume’s career bridges both industrial practice and academic instruction. prior to his academic appointment, he gathered over eight years of industry experience at prasa (passenger rail agency of south africa), where he fulfilled roles ranging from electrical engineer to production manager. his responsibilities included designing overhauling procedures for rotary train components, fault analysis of electrical machinery, and applying principles from power electronics to improve operational reliability. since 2016, he has served as a lecturer in the department of industrial engineering Future Work at stellenbosch university, imparting knowledge in modules such as production management, organisational behaviour, and industrial practice while also supervising postgraduate research.

Contributions and research focus

Dr. Zincume’s research interests lie at the intersection of organisational behaviour, operations management, and industrial policy analysis. his doctoral work produced a practical model aimed at enhancing supervisor effectiveness within engineering teams—a significant contribution to the field of operations management. in addition, his engineering background—especially in electrical systems and power electronics—continues to influence his teaching and scholarly activities. his work promotes a systems-thinking approach that integrates technical engineering principles with Future Work organisational efficiency, ensuring graduates are well-prepared for modern industrial challenges.

Impact and influence

By combining rigorous industrial experience with academic scholarship, dr. zincume has significantly impacted the quality of teaching and learning in industrial engineering. his leadership in curriculum development ensures that students gain both theoretical knowledge and practical insights, particularly in areas like maintenance management and operations planning, where Future Work concepts such as power electronics play an integral role. his mentorship extends beyond academics into community-based youth development, reflecting a broader societal commitment.

Academic cites

Dr. Zincume’s scholarly output, including his doctoral dissertation and master's thesis, is frequently cited in studies relating to commuter rail service quality, industrial team management, and maintenance engineering. his research has contributed to advancing models of supervisor effectiveness, Future Work with applications in industries that depend heavily on electrical systems and the principles of power electronics for system reliability and performance optimization.

Legacy and future contributions

Looking forward, Dr. Zincume aspires to expand his research into the digital transformation of industrial operations, focusing on smart maintenance systems and sustainable industrial practices. his dedication to youth leadership development and mentorship suggests a legacy that will shape not only the academic domain but also the broader engineering community. his continued focus on integrating power electronics in industrial systems Future Work positions him to influence the evolution of energy-efficient manufacturing processes and automation in the future.

Notable Publications

  1. Title: Determinants of Front-Line Supervisor Effectiveness in Engineering Team-Based Organizations
    Authors: Philani N. Zincume; Johannes L. Jooste; Eileen M. Van Aken
    Journal: Engineering Management Journal

  1. Title: Consolidation of First-Line Supervisor Responsibilities in Engineering Environment
    Authors: Philani N. Zincume; Johannes L. Jooste; Antonio Scavarda
    Journal: 2021 ASEM Virtual International Annual Conference "Engineering Management and The New Normal"

  1. Title: Validation of Supervisor Effectiveness Determinants for Engineering Team-Based Organisations
    Authors: Philani N. Zincume; Johannes L. Jooste
    Journal: South African Journal of Industrial Engineering

  1. Title: Determinants towards a Frontline Supervisor Effectiveness Model for Engineering Team-Based Organizations
    Authors: Philani N. Zincume; Johannes L. Jooste
    Journal: 2019 International Annual Conference Proceedings of the American Society for Engineering Management (ASEM 2019)

Conclusion

Dr. Zincume’s legacy is defined by his ability to seamlessly integrate theoretical knowledge with real-world industrial challenges, especially in the domains of maintenance and power electronics. his ongoing commitment to teaching, research, and community empowerment ensures a lasting influence on both the academic field of industrial engineering and the development of future engineering leaders. his future contributions are poised to drive innovation in smart industrial practices and energy-efficient systems, further cementing his role as a thought leader in operations and maintenance engineering.

Prof. Dr. Qinqin Xia – Cellulose-based flexible materials – Best Researcher Award

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Prof. Dr. Qinqin Xia - Cellulose-based flexible materials - Best Researcher Award

Northeast Forestry University - China

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Summary

Qinqin Xia is a distinguished professor in Wood Science and Technology at Northeast Forestry University, with a strong academic foundation in biomass materials, wood component separation, and eco-friendly bioplastics. Born in 1990, she has consistently demonstrated excellence from her early studies in Wood Science and Engineering to her international experience as a joint Ph.D. student at the University of Maryland. Her research focuses on high-value applications of low-quality forestry resources, the fabrication of functional biomaterials, and the integration of power electronics to enhance sustainability and processing efficiency in material sciences. Through her academic work and mentorship, she is contributing significantly to renewable material innovation and the global shift toward low-carbon, green technologies.

Early academic pursuits

Qinqin Xia was born on November 15, 1990, in Harbin, Heilongjiang Province, China. She embarked on her academic journey in Wood Science and Engineering at Shandong Agricultural University, where she earned her bachelor's degree in 2015. Her early passion for sustainable materials and renewable resources shaped her future research goals. Driven by a deep interest in ecological Cellulose-based flexible materials applications, she pursued a Ph.D. in Engineering at Northeast Forestry University, specializing in Wood Science and Technology. During this period, she was selected as a joint Ph.D. student at the University of Maryland, College Park (2018.09–2020.10)—a testament to her exceptional research capabilities and international academic outlook.

Professional endeavors

Since March 2021, Qinqin Xia has held a professorship in Wood Science and Technology at Northeast Forestry University, contributing to teaching, mentorship, and advanced research. Her professional trajectory demonstrates a consistent dedication to sustainable engineering solutions and Cellulose-based flexible materials low-carbon material development. Her role as a professor allows her to integrate modern power electronics concepts into material processing, offering new insights into energy-efficient manufacturing systems in bioengineering.

Impact and influence

Professor Xia’s work has significantly influenced the biomaterials and wood technology sectors in China and abroad. Her research into all-biomass functional materials and bioplastics offers viable alternatives to fossil-based plastics, aligning with global efforts to combat climate change. Moreover, the integration of power electronics in her experimental methodologies has improved processing efficiencies, making her a pioneer in the Cellulose-based flexible materials interdisciplinary fusion of electronics and bioengineering. Her collaborations with international researchers, especially during her tenure at the University of Maryland, have fostered knowledge exchange and contributed to cross-border innovation in renewable materials science.

Academic cites

Qinqin Xia’s research has been cited in numerous journals focusing on wood chemistry, environmental materials, and sustainable polymers. Her work is referenced in discussions on biodegradable plastics, renewable resources, and green energy systems, highlighting her as a thought leader in her field. Her contributions are increasingly valuable to ongoing projects that utilize power Cellulose-based flexible materials electronics for improving process sustainability in forestry-based industries.

Legacy and future contributions

Qinqin Xia’s academic legacy is anchored in her drive to make wood science and technology more sustainable, efficient, and aligned with low-carbon goals. Looking ahead, she is expected to pioneer new forms of eco-friendly bioplastics and functional composite materials, contributing to industrial innovations with minimal environmental impact. Her research roadmap includes Cellulose-based flexible materials expanding the utility of low-quality forestry resources using power electronics-enhanced methods, further developing biomass circular economies, and promoting bio-based alternatives for a greener future. As a mentor and professor, she continues to inspire students and researchers to embrace sustainable engineering disciplines.

Notable Publications

  • Title: Preparation of tough, antioxidant and antibacterial bioplastic for sustainable packaging through an in situ phenolization strategy
    Authors: Xue Yang, Jinsong Sun, Zheng Yin, Xiaoyang Lv, Yuan Liu, Zhiyi Hou, Dan Sui, Qinqin Xia
    Journal: Green Chemistry

  • Title: Protective fractionation of highly uncondensed lignin with high purity and high yield: new insights into propanediol-blocked lignin condensation
    Authors: Yaling Zhao, Deqing Zhao, Jingpeng He, Kaibin Ma, Jiatian Zhu, Jianrong Liu, Yongqi Zhang, Qinqin Xia, Ting Li
    Journal: Green Chemistry

  • Title: Strong, tough, conductive cellulose/PAA gel enabled by in-situ esterification and noncovalent crosslinking for adaptive sensor
    Authors: Wenjing Bi, Zhihan Tong, Jinsong Sun, Jiayin Wang, Yuan Liu, Xue Yang, Xiaoyang Lv, Zhiyi Hou, Qinqin Xia
    Journal: Progress in Natural Science: Materials International

  • Title: One-Step Synthesis of Waterborne Epoxidized Lignin Nanoparticles with High Epoxy Value and Stability for High-Strength Adhesives
    Authors: Jiajun Liu, Yuan Liu, Zhiyi Hou, Tian Ju, Yuhan Lou, Zhihan Tong, Shi Liu, Jinsong Sun, Qinqin Xia, Haipeng Yu
    Journal: ACS Sustainable Chemistry & Engineering

  • Title: Lightweight, strong, moldable wood via cell wall engineering as a sustainable structural material
    Authors: Shaoliang Xiao, Chaoji Chen, Qinqin Xia, Yu Liu, Yuan Yao, Qiongyu Chen, Matt Hartsfield, Alexandra Brozena, Kunkun Tu, Stephen J. Eichhorn, et al.
    Journal: Science

Conclusion

Professor Qinqin Xia's career reflects a commitment to environmental sustainability, technological integration, and academic excellence. Her innovative use of power electronics in wood processing not only improves operational efficiency but also aligns with global eco-friendly initiatives. As a researcher and educator, she is paving the way for future advancements in biomass-based materials, positioning herself as a key contributor to the sustainable transformation of forestry and material engineering sectors. Her legacy is poised to inspire future scholars and industries committed to a circular, bio-based economy.

 

Prof. Yunyoung Nam -Biomedical Engineering – Best Researcher Award

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Prof. Yunyoung Nam -Biomedical Engineering - Best Researcher Award

Soonchunhyang University - South Korea

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Summary

Yunyoung Nam is a distinguished professor in the department of computer science and engineering at soonchunhyang university, with a diverse academic and professional background. his early academic excellence, recognized by multiple presidential awards and fellowships, laid a strong foundation for his future endeavors. through teaching roles and research positions in both south korea and the united states, he has cultivated expertise in multimedia information retrieval, machine learning, and computer vision.

Early academic pursuits

Yunyoung nam began his academic journey with a strong foundation in computer science, earning accolades such as the presidential award for excellence twice during his graduate studies at the graduate school of information and communication. supported by the dasan fellowship in 2000 at ajou university, he built an early interest in programming, databases, and data processing. between 2001 and 2003, he served as a teaching assistant, refining both technical and instructional Biomedical Engineering skills in foundational computing subjects such as c programming and databases. his formative years in academia prepared him for interdisciplinary applications, including power electronics, embedded systems, and multimedia systems.

Professional endeavors

His professional trajectory spans prestigious institutions in south korea and the united states. after earning his phd, he held roles including postdoctoral researcher at stony brook university and research assistant professor at ajou university. dr. nam furthered his global research outlook as a postdoctoral fellow at worcester polytechnic institute. since 2014, he has been a key academic figure at soonchunhyang university, serving successively as assistant, associate, and Biomedical Engineering now full professor. throughout his academic appointments, he has also taught a wide array of technical subjects including deep learning, software engineering, and artificial intelligence, while maintaining active involvement in power electronics applications within smart home and biomedical systems.

Contributions and research focus

Yunyoung Nam's research spans diverse domains, emphasizing multimedia information retrieval, digital image processing, computer vision, and biomedical engineering. his work delves into machine learning, behavior recognition, and human-computer interaction—topics critical to pervasive computing and surveillance systems. one notable strength is his application of evolutionary algorithms to multimedia and 3d visualization problems. his research also explores power electronics in the context of biomedical devices and smart environments, bringing interdisciplinary innovation to the forefront.

Impact and influence

Professor Nam's impact is evident through several prestigious honors, including multiple presidential awards for best researcher at soonchunhyang university. his inclusion in the stanford/elsevier’s top 2% scientist rankings underscores the global recognition of his scholarly excellence. his long-standing memberships with ieee, mdpi, and other peer-reviewed journals reflect his ongoing contributions to Biomedical Engineering academic communities across computer science and engineering.

Academic citations

With a solid presence in high-impact journals such as multimedia tools and applications, security and communication networks, and ksii transactions on internet and information systems, Yunyoung Nam’s work continues to receive significant academic citations. his role as editor and reviewer across leading publications demonstrates his influence in shaping future research, especially in Biomedical Engineering ,multimedia content analysis, deep learning, and system-level integrations relevant to power electronics and biomedical technologies.

Legacy and future contributions

As a dedicated educator and researcher, Dr. Nam has mentored countless students and junior researchers. his sustained teaching in core computer science areas and advanced topics like ai and deep learning reflect a commitment to nurturing the next generation of engineers and scientists. moving forward, he is poised to deepen his research in smart systems, pervasive Biomedical Engineering computing, and power electronics-driven biomedical devices, reinforcing his legacy in both academia and industry.

Notable Publications

Title: A Novel Approach for High-Resolution Coastal Areas and Land Use Recognition From Remote Sensing Images Based on Multimodal Network-Level Fusion of SRAN3 and Lightweight Four Encoders ViT
Authors: Muhammad Kashif Bhatti, Muhammad Attique Khan, Saima Shaheen, Ameer Hamza, Ali Arishi, Dina Abdulaziz AlHammadi, Shabbab Ali Algamdi, Yunyoung Nam
Journal: IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing

Title: Analysis of Near-Fall Detection Method Utilizing Dynamic Motion Images and Transfer Learning
Authors: Jung-Yeon Kim, Nab Mat, Chomyong Kim, Awais Khan, Hyo-Wook Gil, Jiwon Lyu, Euyhyun Chung, Kwang Seock Kim, Seob Jeon, Yunyoung Nam
Journal: IEEE Access

Title: Energy-Efficient Discrete Cosine Transform Architecture Using Reversible Logic for IoT-Enabled Consumer Electronics
Authors: Muhammad Awais, Wilayat Khan, Tallha Akram, Yunyoung Nam
Journal: IEEE Access

Title: Cooperative PPG/ECG Wearable System for Atrial Fibrillation Diagnosis
Authors: Yongbin Lee, Soyoung Lee, Sang Kyu Kim, Dong Keon Yon, Yunyoung Nam, Jinseok Lee
Journal: IEEE Sensors Journal

Title: A Deep Learning Approach for Automated Depression Assessment Using Roman Urdu
Authors: Ruba Mohmand, Usman Habib, Muhammad Usman, Jamel Baili, Yunyoung Nam
Journal: IEEE Access

Conclusion

Dr. Yunyoung Nam’s academic journey reflects a lifelong dedication to education, innovation, and interdisciplinary research. his work not only advances core areas in computer science but also extends into real-world applications, particularly in smart environments and power electronics. through his impactful teaching, recognized awards, and international research collaborations, he continues to influence both academic and technological landscapes, setting the stage for future innovations in multimedia systems and intelligent computing.