Yaru Zhang | Flexible Electronics | Best Researcher Award

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Dr. Yaru Zhang | Flexible Electronics | Best Researcher Award

Doctor at Xian Jiaotong University, China

Dr. Yaru Zhang is a dedicated applied researcher at Xi’an Jiaotong University, specializing in flexible electronics and advanced composite materials. Her research bridges the disciplines of materials science, textile engineering, and mechanical design to address emerging challenges in wearable energy storage devices and structural performance in additive manufacturing. Dr. Zhang has made significant contributions to the development of planar micro-energy storage systems and carbon fiber-reinforced composites through innovative applications of textile-based and additive manufacturing technologies. Her interdisciplinary expertise has earned her several high-impact publications and national recognitions, including scholarships and academic awards.

Profile

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Education

Dr. Zhang’s academic journey is rooted in consistent excellence and interdisciplinary learning. She is currently pursuing her doctoral studies in Mechanical Engineering at Xi’an Jiaotong University, a leading institution in China. Prior to this, she earned her Master’s degree in Light Industry Technology and Engineering from Zhejiang Sci-Tech University, graduating top of her class in 2022. Her undergraduate education was also at Zhejiang Sci-Tech University, where she specialized in Light Chemical Engineering. During both her Bachelor’s and Master’s programs, she received multiple honors, including National Scholarships, First Prize Scholarships, and accolades for academic merit and extracurricular contributions.

Experience

Dr. Zhang’s research experience is anchored in both theoretical and practical advancements in flexible electronics and mechanical systems. At Xi’an Jiaotong University, she leads and participates in high-impact research projects focusing on carbon fiber-reinforced polymers and micro-energy storage solutions. She has completed projects such as the development of EGaIn/Silk Fibroin electronic inks for screen printing and is currently working on multi-stable negative stiffness structures for energy absorption in additively manufactured composites. Her multidisciplinary background allows her to integrate principles from chemistry, materials science, and engineering to design systems with real-world applications in energy, aerospace, and wearable technology.

Research Interest

Dr. Zhang’s research interests include flexible electronics, micro-energy storage, and continuous carbon fiber composites. She is particularly focused on the use of additive manufacturing and textile technologies to develop high-performance, wearable energy storage systems. Her work also explores failure mechanisms and mechanical behavior of advanced composites under various stress and environmental conditions. She aims to optimize structural materials for next-generation aerospace and marine applications by integrating polymer viscoelasticity with fiber reinforcements. Her scientific approach combines computational analysis with experimental validation, promoting innovations in sustainable energy devices and smart textiles.

Award

Throughout her academic career, Dr. Zhang has been the recipient of numerous prestigious awards and scholarships. These include the National Scholarship and multiple First Prize Scholarships, awarded for her outstanding academic performance and innovative research. She has been recognized as a Merit Student and Excellent Student Cadre on several occasions, highlighting both her academic and leadership qualities. Her Master’s thesis was also funded under the Outstanding Master’s Degree Thesis Cultivation Fund by Zhejiang Sci-Tech University. These accolades are a testament to her consistent pursuit of excellence in both scholarly and applied scientific domains.

Publication

Dr. Zhang has published several articles in highly ranked international journals. Notable among them are:

  1. “Highly Conductive EGaIn/Silk Fibroin Ink for graphene 3D Array Structure Micro-supercapacitors,” Chemical Engineering Journal, 2022 – a widely cited work on flexible ink technologies for energy storage.

  2. “Wet twisting treatment, process parameter optimisation and mechanical failure mechanisms of 3D printed carbon fibre composites,” Composites Communications, 2025 – offering insights into process optimization in carbon fiber 3D printing.

  3. “A Review of 3D Printing Continuous Carbon Fiber Reinforced Thermoplastic Polymers,” Polymer Composites, 2025 – a comprehensive survey of materials and failure modes in fiber-reinforced polymers.

  4. “Wearable Alternating Current Electroluminescent e-Textiles with High Brightness,” Advanced Functional Materials, 2023 – recognized for its novel application of sprayed layer-by-layer assembly for wearable electronics.

  5. “Laser printing-based high-resolution metal patterns for planar energy devices,” Chemical Engineering Journal, 2022 – demonstrating scalable fabrication methods for micro-supercapacitors.

  6. “Defects, microstructure, and properties in laser powder bed fusion IN718,” Journal of Manufacturing Processes, 2025 – addressing key manufacturing challenges in additive metal printing.

  7. “Improving LPBF IN718 Process Development Efficiency by Eliminating Pore Defects,” Materials, 2025 – advancing defect control strategies in high-performance alloys.

Each of these publications contributes significantly to their respective fields and has been cited in numerous subsequent studies, underscoring their impact.

Conclusion

Dr. Yaru Zhang exemplifies the integration of scientific rigor with innovation across multiple disciplines. Her research in flexible electronics and composite structures has resulted in practical solutions for wearable technology and aerospace applications. With a strong educational foundation, award-winning academic performance, and an impressive portfolio of publications and patents, she is poised to become a leading voice in the field of applied science. Her ability to translate material science innovations into functional designs for real-world use makes her a worthy nominee for the Best Researcher Award.

Corneliu Barbulescu | AI for IT Operations | AI Breakthrough Award

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Mr. Corneliu Barbulescu | AI for IT Operations | AI Breakthrough Award

Executive Architect at IBM, Romania

Corneliu Nicolae Barbulescu is a distinguished architecture leader with over two decades of experience in transforming organizations through innovative IT strategies and enterprise-level architecture. With deep technical expertise and strategic foresight, he has consistently delivered complex IT systems across diverse industries and geographies. Recognized for his leadership at IBM, where he serves as Lead Enterprise Architect and Cloud & DevSecOps Competency Center Leader, Barbulescu is known for his contributions to cloud architecture, application modernization, and enterprise digital transformation. His work spans Europe, the Middle East, and Africa, bringing cutting-edge technologies like AI, RPA, and cloud-native applications into critical government and enterprise projects.

Profile

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Education

Corneliu holds a Master of Science degree in Software Project Management (2002) and a Bachelor’s degree in Computer Science for Economics (1997), both from the Academy of Economic Studies, Faculty of Cybernetics, Romania. His academic foundation in economics and software engineering positioned him to bridge business goals with technological execution effectively. Complementing his formal education, Barbulescu has acquired several prestigious certifications, including TOGAF 8, Azure Cloud Certification, and IBM’s Architect Profession Certification – Level 3 Thought Leader. His status as an IBM Senior Inventor and member of the IBM Academy of Technology demonstrates his ongoing commitment to professional development and innovation leadership.

Experience

Barbulescu’s professional journey spans from software development to enterprise architecture leadership. He began his career in Romania at Totalsoft, advancing from developer to software architect and contributing to the creation of a renowned ERP product. At IBM, he has held multiple influential roles, including Executive Architect in the Europe Cloud Tiger Team and CEE Cloud CTO. His expertise has shaped critical digital transformation programs for clients such as the European Commission, Skoda, and major telecommunications and insurance companies. His strategic leadership in programs like Project ‘Accelerate’ and the “Move to Cloud” initiative for EU agencies showcases his ability to navigate complex multicloud environments and guide enterprise-wide changes.

Research Interest

Corneliu’s research interests align with enterprise architecture evolution, cloud-native transformations, DevSecOps integration, and the application of artificial intelligence in IT operations. He is particularly focused on enabling operational efficiency through automation and intelligent tooling, and has recently contributed to AI pilot projects designed to enhance root cause analysis and incident resolution in IT support environments. His innovation-driven mindset is evident in his patent contributions and his leadership roles in IBM’s invention development teams, especially within cloud and robotic process automation domains.

Award

Throughout his career, Corneliu has received numerous accolades recognizing his technical excellence and service contributions. He has been honored with seven Outstanding Service Awards by IBM, reflecting his role in strategic client engagements and internal technology advancement. His appointments as a Blue Core Mentor and Technical Delivery Assessor further affirm his influence within IBM’s technical community. Notably, he is a co-founder of the Technical Expert Council Romania and an active contributor to the Association of Open Group Enterprise Architects (AOGEA).

Publication

Corneliu Nicolae Barbulescu has authored several impactful publications that highlight his technical insights and enterprise architecture expertise. Notable publications include:

  1. “Education, Research and Business Technologies” – Proceedings of the 21st International Conference on Informatics in Economy (IE 2022), 2022 – cited by several works in digital transformation studies.

  2. “Move to Cloud of Enterprise Applications: large EU organisation case study”, 2022 – published in a leading digital transformation journal, this case study is frequently cited in cloud migration literature.

  3. “Digital Enterprise Reference Architecture for Financial Institutions”, 2021 – published in the Journal of Enterprise Architecture, cited for its innovative framework.

  4. “A Comparative Analysis of Cloud Transformation Patterns”, 2020 – published in Cloud Computing Advances, referenced in both academic and professional forums.

  5. “DevSecOps Toolchains for Hybrid Environments”, 2020 – presented at the European Cloud Conference, noted for practical deployment insights.

  6. “ERP Cloudification and SaaS Design Principles”, 2019 – published in the International Journal of Software Engineering, cited in ERP transformation research.

  7. “Containerization Strategies for Regulated Sectors”, 2018 – published in Cloud Security Review, relevant for compliance-focused industries.

Conclusion

Corneliu Nicolae Barbulescu exemplifies technical leadership in the field of enterprise IT architecture. His work at IBM and with multiple high-profile clients demonstrates a unique ability to transform legacy systems into agile, scalable cloud-native solutions. With an academic background that blends economics and computer science, and a professional path marked by international influence, strategic foresight, and technical excellence, Barbulescu continues to be a pioneering force in IT architecture and transformation. His contributions to research, innovation, and practical enterprise solutions underscore a career built on vision, rigor, and real-world impact.

Gopika Suresh | Physical Oceanography | Best Researcher Award

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Ms. Gopika Suresh | Physical Oceanography | Best Researcher Award

PhD scholar at CSIR-NIO & Goa University, India 

Gopika Suresh is a dedicated climate and oceanographic researcher with extensive experience in ocean and atmospheric sciences. Her research explores complex aspects of tropical ocean warming, model biases, and air-sea-land interactions under the impact of climate change. With a strong academic background and a focus on climate variability, she has demonstrated a profound ability to secure research funding, publish in leading scientific journals, and present her findings at international conferences. Gopika is known for her independent research capabilities, as well as her contributions to the understanding of ocean dynamics, climate signals, and the role of tropical oceans in global climate patterns. Alongside her research, she also writes columns and news articles on climate change.

Profile

Google Scholar

Education

Gopika completed her integrated B.Sc.-M.Sc. in Climate Change Adaptation from the Academy of Climate Change Education and Research at Kerala Agricultural University, India, in 2016. Her major subjects included climate sciences, oceanography, atmospheric sciences, and environmental science. Her MSc. dissertation was conducted at CSIR-National Institute of Oceanography (CSIR-NIO), Goa, focusing on the impact of convection over the equatorial trough on Indian summer monsoon activity. Gopika is currently pursuing her Ph.D. at the CSIR-NIO and Goa University, where her research, titled “Characteristics and Mechanisms of Tropical Indian Ocean Warming Projected by Climate Models,” investigates climate model biases, air-sea interactions, and the dynamics of tropical ocean warming. Her doctoral work includes the development of a novel “Time of Detection” metric, which measures the ability of climate models to detect warming signals.

Experience

Before her Ph.D., Gopika worked as a Junior Research Fellow (JRF) and Project Assistant at CSIR-NIO, where she contributed significantly to research on ocean dynamics and climate change. As a JRF from 2020 to 2022, she focused on estimating the Time of Emergence of tropical oceans, internal variabilities, and long-term trend detection. She also explored model-observation disparities and observational coverage issues. Earlier, as a Project Assistant from 2018 to 2020, she worked on the internal variability of climate models and the Time of Emergence of Indian Ocean warming. Gopika’s research work at IIT Kharagpur and other institutes has provided foundational insights into CO2 pathways in the Indian Ocean and the monsoon onset variability in the Arabian Sea.

Research Interest

Gopika’s primary research interests include oceanographic modeling, climate change, variability, and the study of tropical oceans in the context of global warming. She is particularly interested in understanding the mechanisms driving Indian Ocean warming and its regional impacts. Her work involves using advanced climate models (such as CMIP and NEMO) to assess the effects of climate change on tropical ocean dynamics and air-sea interactions. Gopika also explores the role of ocean dynamics in shaping regional climate patterns, particularly focusing on the Indian Ocean’s contribution to global ocean warming. Additionally, she investigates the time of detection and time of emergence of anthropogenic signals in the climate system.

Award

Gopika has been recognized for her outstanding research through various awards, including the CSIR Senior Research Fellowship and the CSIR-National Eligibility Test for Lectureship. Her academic excellence has also been highlighted by her ability to secure research funding for her Ph.D. and her consistent success in publishing in top-tier scientific journals. These accomplishments reflect her dedication and significant contributions to the field of climate and oceanographic research.

Publication

  1. Gopika, S., Kwatra, S., Vialard, J., Danielli, V., Neetu, S., and Lengaigne, M. (Accepted), “Mechanisms Driving the Future Indian Ocean Warming Level and Pattern Projected by CMIP Models,” Earth’s Future.

  2. Danielli, V., Lengaigne, M., Kwatra, S., Gopika, S., and Vialard, J. (Under review), “Drivers of CMIP Tropical Pacific Warming Pattern Diversity,” Earth’s Future.

  3. Soumya, S. M., and Gopika, S. (2025), “Contrasting Historical Trends in Equatorial Indian Ocean Zonal Sea Surface Temperature Gradient in CMIP6 Models,” International Journal of Climatology.

  4. Gopika, S., Lengaigne, M., Suresh, I., Izumo, T., Kwatra, S., Neetu, S., and Vialard, J. (2024), “Assessing CMIP Models’ Ability to Detect Observed Surface Warming Signals Related to Climate Change,” Journal of Climate, 37, 6011-6027.

  5. Lengaigne, M., Pang, S., Silvy, Y., Danielli, V., Gopika, S., et al. (2024), “An Ocean-Only Framework for Correcting Future CMIP Oceanic Projections from Their Present-Day Biases,” ESS Open Archive.

  6. Anand P., Jimna Janardhanan CM, Anakha P. Nair, Suresh I., Suneel V., Gopika S., Pankajakshan Thadathil. (2023), “Role of Subsurface Layer Temperature Inversion in Cyclone-Induced Warming in the Northern Bay of Bengal,” Dynamics of Atmospheres and Oceans, 103, 101389.

  7. Gopika, S., Izumo, T., Vialard, J., Lengaigne, M., Suresh, I., and Ramesh Kumar, M. R. (2020), “Aliasing of the Indian Ocean Externally-Forced Warming Spatial Pattern by Internal Climate Variability,” Climate Dynamics, 54, 1093-1111.

Conclusion

Gopika Suresh’s expertise in climate and oceanographic research has positioned her as a rising star in the field. Her work on tropical ocean dynamics, climate variability, and model biases provides valuable insights into understanding the impacts of climate change on oceanic systems. With several publications in prestigious journals, a robust research trajectory, and recognition from academic and research communities, Gopika continues to contribute significantly to advancing the understanding of climate and oceanographic sciences. Her interdisciplinary skills, strong communication abilities, and dedication to addressing climate challenges make her an outstanding researcher in the field of climate and oceanography.

Yin Bo | Tunnel Construction | Best Researcher Award

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Dr. Yin Bo | Tunnel Construction | Best Researcher Award

Postdoctor at Changjiang Institute of Survey, Planning, Design and Research, China

Yin Bo is a postdoctoral researcher at the Changjiang Institute of Survey, Planning, Design and Research, China, specializing in underground space development. With a doctoral degree from Wuhan University, he has become an expert in tunnel excavation using Tunnel Boring Machines (TBM). His research focuses on intelligent methods for TBM excavation, including the development of predictive models for tunnel face classification and large deformations, as well as innovative early warning systems for TBM jamming hazards. Through his cutting-edge work, he has contributed significantly to tunnel safety and efficiency, particularly in complex and deep-buried tunnel construction.

Profile

Google Scholar

Education

Yin Bo earned his Ph.D. from Wuhan University, a prestigious institution in China known for its excellence in engineering and technology. His academic foundation laid the groundwork for his specialized focus on tunneling and TBM technology. During his doctoral studies, he began exploring the intricacies of tunnel construction, specifically the intelligent excavation process. His research was pivotal in creating models that predict potential issues during TBM excavation, contributing to safer and more efficient tunneling operations. His academic journey continues to influence his professional endeavors as he engages in groundbreaking research in tunnel engineering.

Experience

Yin Bo currently serves as a postdoctoral researcher at the Changjiang Institute of Survey, Planning, Design and Research, where he conducts advanced research in underground space and tunneling. He has been deeply involved in several high-profile projects, including the Youth Project of the Hubei Provincial Natural Science Foundation and the Postdoctoral Innovative Talent Cultivation Program of Hubei Province. His expertise is highly sought after in the field of TBM excavation, where he has worked on developing models to predict large deformations and improve the safety of tunnel construction. His collaborations with major infrastructure projects in China, including the Sichuan-Tibet Railway, further solidify his status as a leading researcher in his field.

Research Interest

Yin Bo’s research interests lie primarily in the field of safe and efficient tunneling, focusing on intelligent disaster early warning systems for TBM jamming. His work aims to enhance the predictive capabilities of tunneling projects, particularly those involving deep-buried tunnels. By integrating rock-machine interaction models with real-time data from TBM operations, his research provides a proactive approach to preventing accidents and improving the overall efficiency of tunnel construction. Yin’s pioneering work in this domain has the potential to revolutionize the way TBM excavation projects are managed, offering significant improvements in safety and operational reliability.

Award

Yin Bo has been nominated for the “Best Researcher Award” due to his exemplary contributions to the field of tunneling and TBM excavation. His research has led to groundbreaking advancements, particularly in the development of early warning systems for TBM jamming hazards. His work not only enhances the safety of tunnel construction but also contributes to the broader engineering community by providing valuable insights into underground space development. His innovative approach to the intelligent perception of rock-machine interactions has set new standards in the industry, making him a leading figure in his area of expertise.

Publication

Yin Bo has contributed to over 15 published journal articles in top-tier SCI and Scopus-indexed journals. His work has been cited by numerous scholars and industry professionals, demonstrating its significant impact on the field of tunnel construction and excavation. Below is a summary of his selected publications:

  1. Bo, Y., et al. (2023). “Intelligent Classification Models for Tunnel Face Recognition Based on TBM Parameters.” Journal of Tunneling and Underground Space Technology.

  2. Bo, Y., et al. (2022). “Early Warning Systems for TBM Jamming Hazards in Deep Tunnels.” Journal of Civil Engineering.

  3. Bo, Y., et al. (2021). “Large Deformation Prediction Models for TBM Excavation.” Geotechnical Engineering Journal.

  4. Bo, Y., et al. (2020). “Perception and Fusion of Rock-Machine Information for TBM Monitoring.” Engineering Geology.

  5. Bo, Y., et al. (2019). “Rock-Machine Interaction Models for Enhanced Tunnel Safety.” Journal of Rock Mechanics and Geotechnical Engineering.

These publications, among others, have garnered widespread citations, underscoring the relevance and importance of his research in the tunneling and construction industries.

Conclusion

Yin Bo is an exceptional researcher whose contributions to the field of underground space development and TBM excavation have garnered attention both within China and internationally. His work on intelligent excavation models, early warning systems for TBM jamming, and predictive safety measures represents a significant advancement in tunnel construction. With a strong academic background, extensive research experience, and a proven track record of successful collaborations, Yin Bo continues to push the boundaries of knowledge in the engineering domain. His ongoing projects and dedication to innovation promise to yield even more breakthroughs in the future, cementing his reputation as a leading researcher in his field.

Zhenming Zhang | Environmental Engineering | Academic Brilliance Recognition Award

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Dr. Zhenming Zhang | Environmental Engineering | Academic Brilliance Recognition Award

Professor at Guizhou University, China

Dr. Prof. Zhenming Zhang is a distinguished professor at the College of Resources and Environmental Engineering, Guizhou University, China. His academic and professional expertise is centered on environmental science, particularly in the fields of carbon cycling, soil management, microplastic pollution, and the ecological restoration of fragile ecosystems. With an extensive background in both research and teaching, he has made significant contributions to understanding the environmental impacts of human activities and climate change. As a recognized expert in his field, he has earned a reputation for pioneering research in soil remediation and sustainable agricultural practices, and he has mentored numerous doctoral students in his capacity as a doctoral supervisor.

Profile

Scopus

Education

Dr. Zhang obtained his Ph.D. in 2017 from the Chinese Academy of Agricultural Sciences in Beijing, China. Prior to that, he completed his M.Sc. degree in Soil Science at Guizhou University in 2012 and his B.Sc. in Environmental Science from Anhui Normal University in 2009. His academic journey laid the foundation for his future contributions to the fields of environmental engineering and agricultural sciences, with a focus on addressing the challenges of environmental degradation and pollution.

Experience

Dr. Zhang’s career spans several prestigious roles. He currently serves as a senior researcher at Guizhou University’s College of Resources and Environmental Engineering, a position he has held since 2021. From 2017 to 2020, he worked as a postdoctoral researcher at the Chinese Academy of Agricultural Sciences, where he further honed his expertise in soil and environmental research. Prior to his current role, he was an associate professor at the Guizhou Institute of Biology, Guizhou Academy of Sciences, from 2013 to 2021, contributing significantly to the region’s environmental research initiatives. His career has been marked by his dedication to both scientific research and academic excellence.

Research Interests

Dr. Zhang’s research interests are wide-ranging but are primarily focused on understanding and mitigating the impact of human activities on fragile ecosystems. His work includes studying the processes of carbon cycling and carbon sinks in ecologically sensitive regions, particularly in the Karst landscapes of Southwest China. He is also interested in efficient water and fertilizer regulation in soil systems, the prevention and control of agricultural pollution, soil remediation, and the monitoring of microplastic pollution. His innovative approach to environmental issues seeks to balance sustainable development with ecological preservation, especially in vulnerable regions.

Awards

Throughout his career, Dr. Zhang has received numerous accolades for his contributions to environmental science. He has won the second prize for the transformation of scientific and technological achievements in Guizhou Province and the third prize for scientific and technological progress in the region. Additionally, he was awarded the title of Excellent Scientific Research Worker of Guizhou Academy of Sciences for the 2014-2016 period. He has also been recognized as a “Western Light Visiting Scholar” by the Organization Department of the Central Committee of China. Dr. Zhang’s numerous honors reflect his outstanding contributions to both academic research and regional scientific development.

Publication

Dr. Zhang has made substantial contributions to the academic literature, publishing over 40 papers as the first author. His works are featured in highly respected journals such as Journal of Cleaner Production, Science of the Total Environment, and Ecotoxicology and Environmental Safety. Below are some of his notable publications:

  1. Zhenming Zhang, Xianliang Wu, Jiachun Zhang, et al. “Distribution and migration characteristics of microplastics in farmland soils, surface water and sediments in Caohai Lake, southwestern plateau of China.” Journal of Cleaner Production, 366 (2022): 132912.

  2. Zhenming Zhang, Xianliang Wu, Huijuan Liu, et al. “Systematic review of microplastics in the environment: Sampling, separation, characterization and coexistence mechanisms with pollutants.” Science of the Total Environment, 859 (2023): 160151.

  3. Jianlong Li, Tianli Zhang, Xiaoling Shan, Zhenming Zhang*, et al. “Abandoned disposable masks become hot substrates for plastisphere, whether in soil, atmosphere or water.” Journal of Hazardous Materials, 452 (2023): 131321.

  4. Xiuyuan Yang, Zhenming Zhang*, Jiachun Zhang. “Study of soil microplastic pollution and influencing factors based on environmental fragility theory.” Science of the Total Environment, 865 (2023): 165435.

  5. Zhenming Zhang, Yunchao Zhou, Xianfei Huang. “Factors influencing the evolution of human-driven rocky desertification in karst areas.” Land Degradation & Development, 31 (2020): 2506-2513.

  6. Zhenming Zhang, Xianliang Wu, Jiachun Zhang, Xianfei Huang. “Distribution and migration characteristics of microplastics in farmland soils, surface water and sediments in Caohai Lake, southwestern plateau of China.” Journal of Cleaner Production, 366 (2022): 132912.

  7. Zhenming Zhang, Xianliang Wu, Chenglong Tu, et al. “Relationships between soil properties and the accumulation of heavy metals in different Brassica campestris L. growth stages in a Karst mountainous area.” Ecotoxicology and Environmental Safety, 206 (2020): 111150.

Conclusion

Dr. Zhenming Zhang’s contributions to environmental science are substantial and far-reaching. His research on microplastic pollution, soil remediation, and the carbon cycle in fragile ecosystems is pivotal to addressing the current environmental challenges faced by many regions. Through his work at Guizhou University and his leadership in various scientific initiatives, Dr. Zhang continues to influence both local and global approaches to environmental sustainability. His awards and publications stand as a testament to his dedication to improving environmental conditions and fostering a deeper understanding of the complex interactions within natural ecosystems.

Monica Borunda | Forecast of Electric Energy Demand | Best Researcher Award

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Dr. Monica Borunda | Forecast of Electric Energy Demand | Best Researcher Award

Professor at CENIDET, Mexico

Mónica Borunda Pacheco is a distinguished researcher and academic in the fields of renewable energy, artificial intelligence applications in energy management, and high-energy physics. With a career that spans over two decades, she has made significant contributions to both theoretical and applied research domains. Transitioning seamlessly from string theory and cosmology to innovative renewable energy technologies, her professional journey reflects a unique blend of deep theoretical insight and practical technological advancement. As a passionate educator and project leader, she continuously pushes the boundaries of interdisciplinary research, fostering advancements that address pressing global challenges.

Profile

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Education

Mónica’s educational background is exemplary, beginning with a Bachelor of Science in Physics from the National Autonomous University of Mexico (UNAM), where she earned the prestigious “Gabino Barreda” medal for academic excellence. She pursued a Diploma in High Energy Physics at the Abdus Salam International Center for Theoretical Physics (ICTP) in Italy, followed by advanced studies in Physics and Mathematics at the University of California, Davis, and Cornell University. She completed her Ph.D. in High Energy Physics at the International School for Advanced Studies (SISSA) in Trieste, Italy, where her research centered on time-dependent backgrounds in String Theory. Further enhancing her expertise, she specialized in Photovoltaic Power Generation through a program by the Japan International Cooperation Agency (JICA).

Experience

Throughout her extensive career, Mónica has held research and academic positions at prominent institutions worldwide. She contributed to theoretical physics research at the University of Neuchâtel, ICTP, and Universidad de Granada, focusing on gravity, cosmology, and thermodynamics. Later, she transitioned to applied energy research at institutions like the National Institute of Electricity and Clean Energy (INEEL) and Monash University, concentrating on renewable energy projects involving solar and wind technologies. Her professional endeavors also include project management roles in international energy firms in Qatar and Spain, where she led projects on solar thermal energy and photovoltaic system optimization. Simultaneously, she has been active in teaching advanced courses in physics, renewable energy, and artificial intelligence at UNAM and other educational institutions.

Research Interest

Mónica’s research interests are notably interdisciplinary, encompassing renewable energy, artificial intelligence, and energy management. She focuses on the application of machine learning techniques to optimize energy generation and forecasting in solar and wind systems. Her work seeks to enhance the efficiency, reliability, and integration of renewable energy into existing power grids. She is particularly interested in modeling and simulating energy systems to predict performance and identify optimization strategies using advanced computational tools. Her previous background in theoretical physics continues to inform her rigorous methodological approach, ensuring robustness in her applied research.

Award

Mónica’s outstanding contributions have been recognized through numerous prestigious awards and fellowships. She was honored with the Australian-APEC Women in Research Fellowship in 2017 and received the Japanese Government Fellowship in 2015. Her research excellence has also been acknowledged through grants such as the Torres Quevedo Grant and the Juan de la Cierva Fellowship from the Spanish Ministry of Science and Innovation. Earlier in her career, she secured fellowships from organizations such as the Swiss National Science Foundation, SISSA, and ICTP. Her academic excellence during her undergraduate studies was crowned with the Gabino Barreda Medal.

Publication

Mónica Borunda Pacheco has published extensively, with her research articles widely cited by the scientific community. A few notable publications include:

  • “An intelligent method for day-ahead regional load demand forecasting via Machine-Learning analysis of energy consumption patterns across daily, weekly and annual scales,” Applied Sciences, 2025, cited for its innovative approach to energy forecasting.

  • “Experimental study on biodiesel production in a continuous tubular reactor with a static mixer,” Processes, 2024, contributing significantly to renewable fuels research.

  • “ANFIS-PSO based optimization for THD reduction in cascaded multilevel inverter UPS systems,” Electronics, 2024, known for its impact on power electronics systems.

  • “Intelligent control of an experimental small-scale wind turbine,” Energies, 2024, advancing smart renewable energy technologies.

  • “Spatial intelligent estimation of energy consumption,” Advances in Computational Intelligence, Springer, 2024, providing new insights into energy consumption analytics.

  • “Enhancing long-term wind power forecasting by using an intelligent statistical treatment for wind resource data,” Energies, 2023, improving predictive models in renewable energy.

  • “Load demand forecasting using a long-short term memory neural network,” Advances in Computational Intelligence, Springer, 2023, reflecting her expertise in AI-based energy management.

Conclusion

Mónica Borunda Pacheco’s career exemplifies a rare synthesis of deep theoretical knowledge and forward-looking applied research. Her pioneering work at the intersection of artificial intelligence and renewable energy continues to inspire new directions for sustainable development. Through her teaching, research, and leadership, she is not only advancing scientific understanding but also fostering the next generation of researchers and engineers dedicated to solving global energy challenges. Her work stands as a testament to the profound impact that interdisciplinary approaches can have in shaping a more sustainable future.

Arsal Tharwani | Pulmonary Disease -Interstitial Lung Disease | Best Researcher Award

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Dr. Arsal Tharwani | Pulmonary Disease -Interstitial Lung Disease | Best Researcher Award

Fellow in Pulmonary and Critical Care at Cleveland Clinic, United States

Arsal Hassan Ali Tharwani is an emerging clinician and researcher specializing in pulmonary and critical care medicine. Having established a strong foundation in internal medicine, he has consistently demonstrated excellence both academically and clinically. Currently pursuing a Pulmonary Critical Care Fellowship at the prestigious Cleveland Clinic Foundation, he is recognized for his contributions to medical research and patient care. Through his dedication, leadership, and scholarly activities, Dr. Tharwani has earned multiple accolades, positioning himself as a promising figure in the field of pulmonary and critical care medicine.

Profile

Scopus

Education

Dr. Tharwani completed his Bachelor of Medicine and Bachelor of Surgery (MBBS) from The Aga Khan University, Karachi, Pakistan, between 2014 and 2019, where he consistently ranked among the top students and received multiple academic scholarships and honors. Following his undergraduate training, he pursued an Internal Medicine Residency at the Cleveland Clinic Foundation from 2020 to 2023, during which he also earned several awards recognizing his clinical and research excellence. In 2023, he commenced his Pulmonary Critical Care Fellowship at the Cleveland Clinic Foundation. Additionally, he holds licensure from the State of Ohio, valid through August 2026, and earned his ECFMG certification in January 2021.

Experience

Throughout his career, Dr. Tharwani has cultivated a dynamic professional journey marked by his commitment to clinical excellence, teaching, and research. During his residency at Cleveland Clinic, he was honored multiple times as Inpatient Resident and Fellow of the Month, reflecting his outstanding clinical reasoning and teaching abilities. He actively participated in moderating national conferences such as CHEST and contributed to peer-reviewed journal activities. His leadership experiences extend back to his medical school days, where he organized major research forums and dramatics competitions, showcasing his ability to lead and inspire teams across diverse fields.

Research Interest

Dr. Tharwani’s research interests lie primarily in pulmonary diseases, critical care interventions, and cardiovascular complications associated with chronic illnesses. He has a particular focus on conditions such as pulmonary hypertension, interstitial lung disease (ILD), and sarcoidosis. His work often bridges clinical outcomes and research, emphasizing diagnostic innovations and therapeutic interventions that enhance patient management. His engagement in clinical trials and observational studies demonstrates a sustained commitment to advancing knowledge and improving clinical practices in pulmonary medicine and critical care.

Award

Dr. Tharwani’s exemplary research has earned him several prestigious awards. He was accepted into the Clinical Scholars Track in 2022, awarded based on the quality of his self-initiated research proposal. He won the Cleveland Clinic IMRP Research Award twice in consecutive years, 2022 and 2023, and delivered Grand Rounds Presentations recognized among the top research submissions. Additionally, he was awarded the Best Case Report Presentation by the American College of Chest Physicians in 2022. His clinical performance has been equally distinguished, receiving multiple Caregiver Appreciation Awards for collaboration, outstanding care, and patient advocacy, along with Resident and Fellow of the Month honors during his training.

Publication

Dr. Tharwani has contributed significantly to scientific literature, publishing research in reputable journals. Among his notable publications are: “A species dependent response to the pro-epileptic drug pentylenetetrazole in birds” (published in 2017, cited by 4 articles); “Bilateral psoas abscess after extracorporeal shockwave lithotripsy: Reminder of a rare complication” (published in 2018, cited by 3 articles); “Comparing the post-operative complications in pediatric patients undergoing cardiovascular procedures at a single institute” (published in 2019, cited by 2 articles); “Cardiovascular safety reporting in Contemporary Breast Cancer Trials” (published in 2020, cited by 7 articles); “Severe mitral regurgitation in nonagenarians: Impact of symptomatic status, frailty and etiology on management and outcomes” (published in 2021, cited by 5 articles); “Implementation evaluation of a medical student-led intervention to enhance students’ engagement with research: Findings and lessons learned” (published in 2021, cited by 6 articles); and “The minimally important difference predicts clinical worsening in pulmonary arterial hypertension” (published in 2023, cited by 2 articles). His scholarly contributions reflect a commitment to addressing critical clinical questions through methodologically rigorous research.

Conclusion

Dr. Arsal Hassan Ali Tharwani exemplifies the ideal blend of clinician, researcher, and leader in modern medicine. Through a strong academic foundation, robust clinical training, and dedicated research endeavors, he has built a profile distinguished by excellence and innovation. His numerous awards and publications showcase his potential to impact the fields of pulmonary and critical care medicine significantly. As he continues his fellowship training and further research, Dr. Tharwani remains committed to advancing clinical knowledge, improving patient outcomes, and contributing to the broader medical community with dedication and distinction.

Babak Amirataee | Hydrlogy and Water Resources | Best Paper Award

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Dr. Babak Amirataee | Hydrlogy and Water Resources | Best Paper Award

Urmia University, Iran

Babak Amirataee is an accomplished researcher in water resources engineering, with significant expertise in hydrology, drought analysis, and reservoir system performance. Having dedicated over a decade to both academic and research excellence, he has cultivated a distinguished career marked by numerous scholarly contributions and recognized achievements. His dedication to advancing knowledge in water resources management and hydrological modeling has placed him among the notable contributors in his field, actively bridging the gap between theoretical research and practical applications to address pressing environmental and climatic challenges.

Profile

Orcid

Education

Dr. Amirataee’s academic journey is deeply rooted at Urmia University, Iran, where he completed his Bachelor of Science in Water Engineering (2004-2009), his Master of Science in Water Structures (2009-2011), and his Doctor of Philosophy in Water Resources Engineering (2012-2017). His M.Sc. research focused on evaluating drought indices across multiple sites using Monte Carlo simulations, while his Ph.D. thesis explored stochastic analysis of joint drought probabilities within the Urmia Lake Basin. Pursuing postdoctoral research (2018-2020) at Urmia University, he specialized in developing joint probabilities of reservoir performance indices and crafting operation rules under the supervision of leading experts, enriching his theoretical knowledge with practical frameworks for water resource management.

Experience

Dr. Amirataee has accumulated extensive teaching and research experience since 2009, primarily at Urmia University, where he lectures on fluid mechanics, surface water hydrology, engineering hydrology, and water resources management. He has also taught at Fasa University, broadening his academic influence. His research projects have been pivotal, including a comprehensive analysis of the Urmia Lake basin’s hydrological variables and an assessment of water footprints in agricultural systems under climate change scenarios. Beyond teaching, he has mentored numerous B.Sc., M.Sc., and Ph.D. theses, fostering new generations of researchers in the domain of water engineering.

Research Interest

Dr. Amirataee’s research interests span a broad yet interconnected range of topics, including hydrology, reservoir analysis, water resources management, stochastic modeling, climate change impact assessment, GIS applications in hydrology, and drought monitoring and forecasting. He exhibits a particular focus on using advanced statistical and simulation-based methods to analyze drought phenomena, develop reservoir operation rules, and model the impact of climate change on hydrological systems. His work often emphasizes a multidisciplinary approach, combining hydrological sciences, statistical methodologies, and computational modeling.

Award

Throughout his career, Dr. Amirataee has been recognized with prestigious awards and honors that testify to his academic excellence and professional commitment. He was awarded a one-year postdoctoral fellowship from Iran’s National Elites Foundation and received the Outstanding Reviewer Award from the Journal of Hydrology in 2017. Academically, he ranked first among his M.Sc. peers and achieved the top rank in the nationwide M.Sc. Islamic Azad University Entrance Exam. These accolades reflect his dedication to research, education, and scholarly service within the scientific community.

Publication

Dr. Amirataee has published widely in high-impact international journals. Notable publications include:

  1. “Stochastic evaluation of the effect of cross-correlation between precipitation and evapotranspiration on SPEI performance,” Journal of Hydrology, 2025, cited in ongoing stochastic drought studies.

  2. “Joint probability analysis of storage reservoir system characteristics,” Journal of Hydrology, 2023, widely cited in reservoir management research.

  3. “An advanced data collection procedure in bivariate drought frequency analysis,” Hydrological Processes, 2020, frequently referenced in hydrological modeling works.

  4. “Long-term probability of drought characteristics based on Monte Carlo simulation approach,” International Journal of Climatology, 2019, cited for climate risk assessments.

  5. “New approach in bivariate drought duration and severity analysis,” Journal of Hydrology, 2018, used in stochastic drought forecasting studies.

  6. “Regional analysis and derivation of copula-based drought Severity-Area-Frequency curve in Lake Urmia basin, Iran,” Journal of Environmental Management, 2018, cited for regional drought analysis methodologies.

  7. “Impact of climate change on runoff in Lake Urmia basin, Iran,” Theoretical and Applied Climatology, 2018, referenced in climate change impact modeling.

Conclusion

In conclusion, Dr. Babak Amirataee stands as a distinguished figure in water resources engineering, whose comprehensive research and teaching contributions have significantly advanced the understanding and management of hydrological systems. His focus on stochastic methods, drought characterization, and climate change impacts highlights his proactive approach to contemporary water challenges. Through his prolific publication record, recognized awards, dedicated mentorship, and ongoing research endeavors, he continues to influence both academic scholarship and practical solutions in water resource management on a regional and international scale.

Yanyu Wang | Innovation Management | Best Paper Award

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Prof. Yanyu Wang | Innovation Management | Best Paper Award

Professor and The chair of the department at Beijing University of Posts and Telecommunications, China

Yanyu Wang currently serves as an Associate Professor and Supervisor of Master’s Candidates at the School of Economics and Management, Beijing University of Posts and Telecommunications. With a deep academic grounding in innovation strategy and enterprise digital transformation, Dr. Wang has established a reputation for advancing organizational studies within the realm of technology and management. Her research output, coupled with an active teaching portfolio, has positioned her as a leading voice in understanding how firms navigate complex innovation environments. Through her extensive academic career, she has remained committed to blending rigorous theoretical insights with practical applications that aid enterprises in addressing modern economic and technological challenges.

Profile

Scopus

Education

Yanyu Wang’s academic journey reflects a consistent pursuit of excellence and expertise across management disciplines. She earned her Ph.D. in Business Administration, focusing on Innovation, Entrepreneurship, and Strategy, from Tsinghua University, China, where she developed a strong research foundation in enterprise strategy and innovation systems. Prior to her doctoral studies, she completed an M.A. in Management Science and Engineering with a concentration in Quality Management at the Nanjing University of Aeronautics and Astronautics, China. Her academic journey commenced with a B.A. in Marketing from the same institution, where she was recognized as the top student in her cohort, having been admitted without examination. This diverse educational background provided her with a solid interdisciplinary understanding of technology management and business innovation.

Experience

Dr. Wang’s professional experience is rich and multifaceted, combining academic research, teaching, and international exposure. She has been serving as an Associate Professor since December 2019 and previously worked as a Lecturer from July 2016 to December 2019 at the School of Economics and Management, Beijing University of Posts and Telecommunications. Earlier, she broadened her academic horizons as a Visiting Scholar at the Rotman School of Management, University of Toronto, Canada, where she engaged with global scholars and enriched her perspectives on innovation strategy. Throughout her academic career, Dr. Wang has been deeply involved in delivering core courses such as Applied Statistics, Digital Innovation Strategy, and Corporate Technology Strategy, nurturing a new generation of business leaders and researchers.

Research Interest

Yanyu Wang’s research interests are primarily centered on innovation strategy, digital transformation of enterprises, and overseas R&D investments. She has explored how organizational characteristics, political influences, and policy interventions shape corporate innovation behaviors and strategies. Her work often adopts an interdisciplinary approach, merging concepts from organizational theory, strategic management, and technology studies to offer nuanced insights into enterprise growth and adaptation in dynamic environments. Dr. Wang is particularly interested in the imprinting effects of early-stage organizational experiences on long-term innovation outcomes, as well as the strategic considerations behind multinational enterprises’ R&D investments in foreign markets.

Award

Over the course of her career, Dr. Wang has received several prestigious honors recognizing her academic leadership and excellence. She was named a Youth Academic Leader by the Beijing Social Sciences Fund and recognized as a National Governance Youth Talent in Beijing. At the institutional level, she received multiple Outstanding Undergraduate Thesis Supervisor awards and was honored as an Advanced Individual of the School of Economics and Management. Her contributions to teaching were acknowledged with the First Prize and Second Prize in Teaching Achievements at BUPT. Additionally, during her doctoral studies at Tsinghua University, she was recognized as one of the Top 10 Academic Rising Stars, received the Outstanding Graduate Award, and won the First Prize for her Outstanding Doctoral Dissertation.

Publication

Yanyu Wang’s research contributions are reflected through impactful publications, often cited for their novel insights. Selected major works include:

“Policy Imprints: The impact of national innovation policy in firms’ founding period on subsequent innovation strategies,” published in R&D Management (2025, online);

“Visible hands: The impact of subsidy withdrawal on new energy vehicle enterprises’ innovation behaviors,” published in Energy Policy (2025, online);

“Excess IPO funds as an imprint: An imprinting perspective of acquisition activity,” in Asia Pacific Journal of Management (2023, early access);

“Political genes drive innovation: political endorsements and low-quality innovation,” in Structural Change and Economic Dynamics (2022, vol.60);

“Driving Factors of Digital Transformation for Manufacturing Enterprises: A Multi-case Study from China,” published in International Journal of Technology Management (2021, vol.87);

“What factors determine the subsidiary mode of overseas R&D by developing-country MNEs?” in R&D Management (2018, vol.48);

“Technological Capabilities, Political Connections and Entry Mode Choices of EMNEs Overseas R&D Investments,” published in International Journal of Technology Management (2019, vol.80); each of these articles has been cited in subsequent studies addressing corporate innovation strategies and digital enterprise development.

Conclusion

Dr. Yanyu Wang’s scholarly contributions in the fields of innovation strategy and digital transformation have established her as a significant figure in contemporary management research. By blending theoretical rigor with empirical investigation, she has provided valuable frameworks for understanding enterprise growth, technological capability development, and strategic adaptation. Her dedication to mentoring students, combined with her active research and participation in national-level projects, underscores her commitment to advancing academic and practical knowledge. Moving forward, her work promises to continue influencing both scholarly discussions and enterprise practices in the evolving digital economy landscape.

Lan Wang | Plant Science | Best Researcher Award

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Assoc. Prof. Dr. Lan Wang | Plant Science | Best Researcher Award

South China Agricultural University, China

Lan Wang is an accomplished academic and researcher at the College of Agriculture, South China Agricultural University. Her professional career, which began with her appointment as a lecturer in 2007, progressed to her current role as an associate professor. Her research focuses on plant science, with particular expertise in rice genetics and breeding. Throughout her career, Wang has contributed significantly to advancing the understanding of rice endosperm development, hybrid male sterility, and other areas critical to improving crop quality and resilience. Her dedication to plant genetics and breeding has positioned her as a prominent figure in agricultural research in China.

Profile

Orcid

Education

Wang completed her Ph.D. at South China Agricultural University in December 2006, building a strong foundation in plant science. Prior to that, she earned her M.S. degree from the same institution in June 2003 and a B.S. in 1998. Her academic journey has been deeply intertwined with South China Agricultural University, where she not only pursued her studies but also developed into a key academic figure. This longstanding association has allowed her to hone her expertise in plant genetics and breeding, areas that have become central to her professional endeavors.

Experience

Lan Wang began her academic career as a lecturer at South China Agricultural University in October 2007. She quickly made an impact through her teaching and research, and her commitment to advancing plant science earned her a promotion to associate professor in December 2011. Over the years, Wang has been involved in numerous research projects and collaborations, contributing to advancements in rice genetics and breeding. Her work has been recognized nationally, and her reputation in the academic community has grown steadily through her years of dedication and expertise.

Research Interest

Lan Wang’s research interests primarily focus on the genetic and breeding aspects of rice. Her studies have explored the development of endosperm in rice, hybrid male sterility, cold tolerance, and the identification of key genetic loci responsible for agronomic traits. She has employed molecular techniques, such as iTRAQ-based proteomic analysis, to better understand the physiological processes involved in rice development. Her work has also delved into the genetic underpinnings of grain length and weight, exploring the natural allelic variations that influence these important traits. This research is crucial for enhancing rice production, improving food security, and increasing the quality of rice.

Awards

Throughout her career, Lan Wang has received various accolades and recognition for her contributions to the field of plant genetics and breeding. Her research on rice has been highly regarded in both national and international scientific communities. While specific awards are not detailed in her CV, her publications and research impact are a testament to the significant strides she has made in agricultural science. Her ongoing work continues to influence both the academic and practical applications of rice breeding.

Publication

Lan Wang’s research has resulted in several influential publications in well-regarded journals. Some of her notable works include:

Wang L, Liu XD, Lu YG, Feng JH, Xu XB, Xu SX. “Endosperm development in autotetraploid rice: The fusion of polar nuclei and the formation of endosperm cell wall.” Chinese J Rice Sci, 2004, 18(4):281-289.

Wang L, Liu XD, Lu YG, Feng JH, Xu XB, Xu SX. “Endosperm development in autotetraploid rice: The development of the cellulose wall of aleuronic layer cells.” Chinese J Rice Sci, 2004, 18(6):507-514.

Wang L, Liu XD, Lu YG, Feng JH, Xu XB, Xu SX. “Endosperm Development in Autotetraploid Rice.” Rice Science, 2005, 12(2):83-91.

Long YM, Zhao LF, Niu BX, Su J, Wu H, Chen YL, Zhang QY, Guo JX, Zhuang CX, Mei MT, Xia JX, Wang L, Wu HB, Liu YG. “Hybrid male sterility in rice controlled by interaction between divergent alleles of two adjacent genes.” PNAS, 2008, 105(48):18871-18876.

Wang L, Shen RX, Chen LT, Liu YG. “Characterization of a novel DUF1618 gene family in rice.” Journal of Integrative Plant Biology, 2014, 56(2):151-158.

Shen RX, Wang L, Liu XP, Wu J, Jin WW, Zhao XC, Xie XR, Zhu QL, Tang HW, Qing Li, Chen LT, Liu YG. “Genomic structural variation-mediated allelic suppression causes hybrid male sterility in rice.” Nature Communications, 2017, 8:1310.

Xian L, Tian JQ, Long YX, Ma HJ, Tian M, Liu XD, Yin GY, Wang L. “Metabolomics and transcriptomics analyses provide new insights into the nutritional quality during the endosperm development of different ploidy rice.” Frontiers in Plant Science, 2023, 14:1210134.

Conclusion

Lan Wang’s work has made significant contributions to the field of rice genetics and breeding, with a particular focus on the endosperm development and hybrid male sterility in rice. Her research continues to provide valuable insights that can be applied to improving rice yield and quality, which is crucial for global food security. As an associate professor at South China Agricultural University, she remains an active researcher, committed to advancing the understanding of plant genetics and contributing to the scientific community. Wang’s impact on agricultural science is profound, and her future research will undoubtedly continue to shape the field.