Shahid Bahonar University of Kerman | Iran

Author Profile

Early Academic Pursuits

Professor Ramin Raiszadeh embarked on his academic journey with a strong foundation in metallurgy engineering, driven by a keen interest in understanding the behavior of metals and materials under various physical conditions. His undergraduate studies laid the groundwork for a deeper exploration of the metallurgical sciences, equipping him with essential knowledge of phase transformations, mechanical properties, and the processes of alloy production and treatment. Motivated by his academic excellence and curiosity, he advanced to a postgraduate program that focused on the selection of materials, allowing him to delve into the critical task of choosing appropriate materials for engineering applications based on mechanical performance, durability, and environmental compatibility. He further extended his academic reach by pursuing a doctorate in metallurgy and materials, concentrating specifically on casting technology. His doctoral studies, conducted at a leading university in the United Kingdom, not only enhanced his expertise in casting processes but also introduced him to advanced research methodologies and international collaborations, shaping the rigorous scientific approach that would later define his academic career.

Professional Endeavors

Upon completing his academic training, Professor Raiszadeh dedicated his career to higher education and research at Shahid Bahonar University of Kerman. He began as a lecturer and steadily progressed through various academic ranks, ultimately achieving the position of full professor. Throughout his tenure, he has played a pivotal role in curriculum development, student mentorship, and departmental leadership. He has taught a wide array of courses at both undergraduate and graduate levels, covering topics such as solidification, advanced casting, transport phenomena, error analysis, and metallurgical calculations. His commitment to integrating theory with practical applications is evident in his inclusion of programming, materials design, and analytical software tools within his teaching practices. Beyond the classroom, he has devoted considerable effort to supervising student research, guiding more than seventy undergraduate projects and numerous graduate theses. His work reflects not only a dedication to academic instruction but also a passion for fostering the next generation of materials engineers and scientists.

Contributions and Research Focus

Professor Raiszadeh’s research portfolio centers around the improvement of casting processes and the study of defects in aluminum-based alloys. He has made significant strides in investigating aluminum melt quality, particularly in relation to the impact of mechanical treatments such as stirring and vibration. His pioneering research on bifilm defects in aluminum castings has contributed to a better understanding of how such defects form, how they can be detected, and how their detrimental effects can be mitigated or eliminated. This work holds immense value for industries reliant on high-integrity cast components, especially in automotive and aerospace sectors. In addition, he has examined the deactivation mechanisms of bifilm defects across different aluminum alloys, offering comprehensive insights into improving casting outcomes. His research combines experimental analysis with mathematical modeling, allowing for predictive simulations and optimization of casting parameters. These contributions have expanded the scientific understanding of metal casting and informed best practices in industrial metallurgy.

Accolades and Recognition

Throughout his career, Professor Raiszadeh has earned recognition for his scholarly achievements, educational leadership, and research contributions. His steady ascent through the academic ranks is a reflection of both peer acknowledgment and institutional trust in his abilities. He has been entrusted with supervising multiple government- and university-funded research projects, signifying the confidence stakeholders have in his capacity to deliver impactful and innovative solutions. While he remains a humble academic, his influence is felt through his active role in student development, research dissemination, and the implementation of new methodologies within his department. His efforts to integrate analytical tools and computer programming into metallurgical education have further enhanced his reputation as a forward-thinking educator and researcher.

Impact and Influence

Professor Raiszadeh’s impact transcends the boundaries of academia, reaching into industry and broader scientific communities. His work on aluminum melt quality and defect analysis has practical implications for manufacturing efficiency, cost reduction, and product reliability. His research outcomes contribute directly to improving quality assurance in casting, helping companies meet stringent safety and performance standards. In academia, his guidance has inspired a generation of students to pursue careers in materials science, many of whom have gone on to become researchers and engineers in their own right. His ability to translate complex scientific phenomena into understandable concepts has made him a respected figure among students and colleagues alike. Moreover, his interdisciplinary approach—blending materials science with computational tools—has broadened the scope of traditional metallurgical education and practice.

Legacy and Future Contributions

Looking ahead, Professor Raiszadeh’s legacy is being built on a foundation of excellence in research, education, and mentorship. His work on casting processes and defect modeling has laid the groundwork for future explorations into lightweight and high-performance materials. With the increasing demand for sustainable manufacturing and efficient materials usage, his expertise in alloy behavior and defect mitigation will remain highly relevant. He continues to inspire academic inquiry and industrial application, and his commitment to integrating modern computational techniques with traditional metallurgy positions him to contribute meaningfully to the evolving landscape of materials science. As a mentor, researcher, and thought leader, Professor Raiszadeh’s future contributions promise to sustain and enrich the discipline for years to come.

Notable Publications

A method to study the history of a double oxide film defect in liquid aluminum alloys

Authors: R. Raiszadeh, W.D. Griffiths
Journal: Metallurgical and Materials Transactions B
Year: 2006

Precipitation hardening of cast Zr-containing A356 aluminium alloy

Authors: B. Baradarani, R. Raiszadeh
Journal: Materials & Design
Year: 2011

Hydrogen, porosity and oxide film defects in liquid Al

Authors: W.D. Griffiths, R. Raiszadeh
Journal: Journal of Materials Science
Year: 2009

Healing of double oxide film defects in A356 aluminium melt

Authors: M. Aryafar, R. Raiszadeh, A. Shalbafzadeh
Journal: Journal of Materials Science
Year: 2010

A semi-empirical mathematical model to estimate the duration of the atmosphere within a double oxide film defect in pure aluminum alloy

Authors: R. Raiszadeh, W.D. Griffiths
Journal: Metallurgical and Materials Transactions B
Year: 2008

Assoc Prof Dr. Jing Jiang | Team Building and Team Management | Best Researcher Award

Published on 05/08/202505/08/2025 by Leadership and Management

Assoc Prof Dr. Jing Jiang | Team Building and Team Management | Best Researcher Award

School of Urban Planning and Municipal Engineering | Xi’an Polytechnic University | China

Author Profile

ORCID

Early Academic Pursuits

Dr. Jing Jiang’s academic path began with a firm grounding in engineering and environmental studies, leading to the attainment of a Doctorate in Engineering. Her early academic experiences were marked by a deep engagement with the principles of building science and sustainability, particularly focusing on the control of thermal and humidity conditions within indoor environments. These foundational years of study laid the groundwork for a career centered around improving human wellbeing through innovative environmental design. Her intellectual curiosity, combined with a strong grasp of both theoretical frameworks and practical applications, fostered an early appreciation for the interdisciplinary nature of building performance, integrating elements of thermodynamics, physiology, architecture, and energy systems.

Professional Endeavors

Since beginning her tenure at the School of Urban Planning and Municipal Engineering at Xi’an Polytechnic University, Dr. Jiang has played a key role as an Associate Professor, contributing to both academic leadership and research excellence. In her professional capacity, she has undertaken teaching responsibilities, student supervision, and curriculum development, while maintaining an active research agenda. Her role extends beyond classroom instruction; she is a mentor to students and a collaborator with faculty and industry partners in promoting evidence-based approaches to environmental planning. Dr. Jiang’s professional work has emphasized not only academic rigor but also the real-world applicability of sustainable indoor environmental design, making her a valuable figure in university-wide initiatives aimed at climate-responsive urban development.

Contributions and Research Focus

Dr. Jiang’s research contributions are rooted in the integration of thermal environment studies with human health and cognitive function. She has developed a strong reputation for her empirical investigations into how small temperature fluctuations and short-term cold exposures affect physiological responses and learning performance, particularly among young individuals. This research, published in Energy and Buildings, highlights the subtle but impactful ways in which indoor climate conditions can influence occupants’ cognitive capacities and overall comfort. Another significant line of her inquiry involves holistic approaches to assessing indoor temperatures—not solely from the perspective of comfort, but in terms of their implications for academic performance and behavioral outcomes. Her publication in Building and Environment showcases a multi-dimensional evaluation framework that challenges traditional models and supports the design of more responsive and intelligent building systems. In addition, her field research on adaptive thermal comfort in primary school settings provides critical insights into how children adapt to varying indoor temperatures in naturally ventilated buildings, offering guidance for designing future educational facilities that balance energy efficiency with occupant wellbeing.

Accolades and Recognition

The scholarly quality of Dr. Jiang’s research has been widely acknowledged through publication in high-impact, peer-reviewed journals indexed in SCI and Scopus. Her work demonstrates not only methodological sophistication but also practical relevance, and has earned her recognition among peers in the domains of building science and environmental engineering. Through her studies, she has contributed valuable data and models that enhance the collective understanding of indoor environmental quality and its effects on users. Institutional recognition of her expertise is also evident in her involvement in major research projects, many of which address critical societal concerns such as educational infrastructure, sustainable urban planning, and climate adaptability in built environments.

Impact and Influence

Dr. Jiang’s academic influence extends beyond the confines of her own institution and discipline. Her research outcomes have informed best practices in the design and management of educational and public buildings, especially with respect to how they affect thermal comfort and mental performance. The interdisciplinary nature of her work—drawing from engineering, psychology, environmental science, and architecture—has allowed her to contribute meaningfully to policy discussions and technical standards related to indoor environmental quality. She has helped shift the discourse from viewing buildings as static energy consumers to recognizing them as dynamic ecosystems that influence and respond to human needs. By foregrounding issues such as thermal adaptability and comfort-driven energy strategies, Dr. Jiang has influenced the way building performance is understood and prioritized by academics, practitioners, and policymakers alike.

Legacy and Future Contributions

Dr. Jiang’s legacy will undoubtedly be marked by her commitment to bridging the gap between human-centered research and environmental engineering. Looking forward, she is well-positioned to deepen her exploration of intelligent building systems, incorporating advanced technologies such as machine learning, occupant behavior modeling, and real-time environmental monitoring into her research. Her forward-thinking approach promises to contribute to the development of buildings that are not only energy-efficient but also adaptive to diverse user needs across climates and demographics. Furthermore, her growing network of research collaborations and institutional partnerships suggests that her work will continue to influence the future of urban sustainability, indoor health, and education facility planning. As a scholar dedicated to improving human experiences within the built environment, Dr. Jing Jiang is poised to leave a lasting mark on both academic scholarship and professional practice in urban and environmental design.

Notable Publications

A holistic approach to the evaluation of the indoor temperature based on thermal comfort and learning performance

Author(s): Jing Jiang, Dengjia Wang, Yanfeng Liu, Yuhui Di, Jiaping Liu
Journal: Building and Environment
Year: 2021

A field study of adaptive thermal comfort in primary and secondary school classrooms during winter season in Northwest China

Author(s): Jing Jiang, Dengjia Wang, Yanfeng Liu, Yuhui Di, Jiaping Liu
Journal: Building and Environment
Year: 2020

A study on pupils’ learning performance and thermal comfort of primary schools in China

Author(s): Jing Jiang, Dengjia Wang, Yanfeng Liu, Yanchao Xu, Jiaping Liu
Journal: Building and Environment
Year: 2018

The passive solar heating technologies in rural school buildings in cold climates in China

Author(s): Yanfeng Liu, Jing Jiang, Dengjia Wang, Jiaping Liu
Journal: Journal of Building Physics
Year: 2018

The indoor thermal environment of rural school classrooms in Northwestern China

Author(s): Yanfeng Liu, Jing Jiang, Dengjia Wang, Jiaping Liu
Journal: Indoor and Built Environment
Year: 2017

Dr. Fatemeh Tahmasebi | Innovative Leadership | Best Researcher Award

Published on 04/08/2025 by Leadership and Management

Dr. Fatemeh Tahmasebi | Innovative Leadership | Best Researcher Award

Department of Anatomy, Faculty of Medicine | Iran

Author Profile

Google Scholar

Early Academic Pursuits

Dr. Fatemeh Tahmasebi began her academic journey with a strong focus on the medical sciences, specializing in the intricate field of human anatomy. Her academic pursuits were rooted in deep scientific curiosity, which laid the foundation for her future as a research-driven academic. Her doctoral studies concentrated on anatomical sciences, a discipline that demands both rigorous theoretical knowledge and exceptional laboratory proficiency. These formative years were critical in shaping her understanding of the complexities of the human nervous system, cellular interactions, and regenerative medicine—areas that would later become central to her research identity.

Professional Endeavors

Currently serving as an Assistant Professor at the School of Medicine, Mashhad University of Medical Sciences, Dr. Tahmasebi has established herself as a dedicated academic and researcher. In her role as a faculty member, she not only contributes to the education of medical students but also actively mentors research scholars in highly technical, experimental studies. Her professional career has been consistently aligned with high-impact areas in neuroanatomy and tissue engineering, with particular focus on spinal cord injuries, neurodegeneration, and neural regeneration. She has demonstrated exceptional leadership in numerous research projects, often taking on the role of executive investigator, managing all aspects of experimental design, implementation, and data analysis.

Contributions and Research Focus

Dr. Tahmasebi’s research portfolio is both extensive and multidisciplinary, merging neurobiology, stem cell therapy, nanotechnology, and regenerative medicine. She has made significant strides in developing innovative approaches to treating spinal cord injuries and neurodegenerative diseases using adipose-derived mesenchymal stem cells, nanofiber scaffolds, and targeted drug delivery systems. Her research projects include studies on the phenotypic modulation of glial cells, the interaction of neurons and astrocytes in disease models, and the use of nanotechnology to enhance the efficacy of regenerative treatments.

One of her hallmark contributions is the use of polymeric and carbon nanotube-based scaffolds enriched with therapeutic agents like curcumin, hesperidin, and ellagic acid to enhance recovery in spinal cord injury models. Additionally, she has led groundbreaking investigations into the role of microRNAs in neural degeneration, especially in Parkinson’s disease and multiple sclerosis models. Her pioneering work on the use of exosome-loaded hydrogels for targeted drug delivery exemplifies her dedication to translational research that bridges the gap between basic science and clinical application.

Dr. Tahmasebi’s research also extends to developmental neuroscience. She has explored how maternal diabetes impacts the expression of neurotransmitter receptors in neonates, offering insights into developmental neurobiology and the intergenerational effects of metabolic disorders.

Accolades and Recognition

Her scientific achievements are reflected in her prolific publication record in peer-reviewed, high-impact journals indexed in ISI, Scopus, PubMed, and other international databases. Many of her articles have been published in reputed journals such as the Journal of Cellular Physiology, Neuropeptides, Journal of Molecular Histology, Journal of Cellular Biochemistry, Cell Journal, and Journal of Chemical Neuroanatomy. In these works, she often appears as the first or corresponding author, demonstrating her leadership in research conceptualization and execution.

Beyond publications, Dr. Tahmasebi has also collaborated on several major research projects, bringing together expertise across multiple institutions and research centers. Her role as a co-investigator in numerous studies reflects her capacity to contribute both technically and intellectually to multidisciplinary scientific efforts.

Impact and Influence

Dr. Tahmasebi’s work has had a meaningful impact on both academic scholarship and biomedical research related to neuroregeneration. Her focus on integrating stem cell biology with nanomedicine to treat conditions like multiple sclerosis and spinal cord injuries addresses urgent global health challenges. Her research on microglial and astrocyte modulation has helped deepen understanding of the cellular microenvironment during neurodegeneration and repair. By advancing therapies that utilize bioengineered scaffolds and exosomes, she is actively shaping the future of neural tissue engineering and personalized regenerative medicine.

Furthermore, her contributions have inspired a new generation of researchers, particularly in Iran, to pursue high-level, applied biomedical research. Through her involvement in postgraduate mentorship and interdisciplinary collaborations, she is helping to build research capacity and elevate the scientific standards in anatomical and neurological sciences.

Legacy and Future Contributions

Dr. Fatemeh Tahmasebi’s academic legacy is one of innovation, collaboration, and commitment to societal health. Her work stands at the crossroads of anatomical science, regenerative medicine, and nanotechnology. As research in neural repair and neuroplasticity continues to evolve, she is well-positioned to lead new initiatives in translational neuroscience. Her future endeavors are likely to include the development of bioresponsive scaffolds, gene regulation therapies via miRNAs, and deeper investigations into neuroimmune interactions during injury recovery.

She is poised to further influence medical science not only through pioneering research but also through active engagement in scientific dissemination and community health education. Her continued presence in academia and research will undoubtedly contribute to a deeper understanding of complex neurobiological processes and the development of more effective therapeutic strategies.

Notable Publications

Effect of the CSF1R inhibitor PLX3397 on remyelination of corpus callosum in a cuprizone‐induced demyelination mouse model

Authors: F. Tahmasebi, P. Pasbakhsh, K. Mortezaee, S. Madadi, S. Barati, I.R. Kashani
Journal: Journal of Cellular Biochemistry
Year: 2019

Masitinib: The promising actor in the next season of the Amyotrophic Lateral Sclerosis treatment series

Authors: A.H.M.E. Ketabforoush, R. Chegini, S. Barati, F. Tahmasebi, B. Moghisseh, …
Journal: Biomedicine & Pharmacotherapy
Year: 2023

Mesenchymal stem cell mediated effects on microglial phenotype in cuprizone‐induced demyelination model

Authors: S. Barati, I. Ragerdi Kashani, F. Moradi, F. Tahmasebi, S. Mehrabi, M. Barati, …
Journal: Journal of Cellular Biochemistry
Year: 2019

Astrocyte ablation induced by La-aminoadipate (L-AAA) potentiates remyelination in a cuprizone demyelinating mouse model

Authors: S. Madadi, P. Pasbakhsh, F. Tahmasebi, K. Mortezaee, M. Khanehzad, …
Journal: Metabolic Brain Disease
Year: 2019

The effect of microglial ablation and mesenchymal stem cell transplantation on a cuprizone‐induced demyelination model

Authors: F. Tahmasebi, P. Pasbakhsh, S. Barati, S. Madadi, I.R. Kashani
Journal: Journal of Cellular Physiology
Year: 2021

Prof Dr. Cesar Mateo | Innovative Leadership | Best Researcher Award

Published on 31/07/202502/08/2025 by Leadership and Management

Prof Dr. Cesar Mateo | Innovative Leadership | Best Researcher Award

consejo superior de investigaciones científicas | Spain

Author Profile

ORCID

Education

Dr. Mateo’s academic background integrates strong foundations in biomolecular science, chemistry, and polymeric material applications, although specific institutional affiliations are not listed. His education has evidently been rigorous and interdisciplinary, equipping him with the tools necessary to traverse complex scientific domains. His training emphasized applied enzymology, synthetic chemistry, and biochemical engineering, which underpinned his ability to pioneer new methods in enzyme stabilization and immobilization.

Experience

Throughout his career, César Mateo has directed innovative projects in three key scientific areas: materials chemistry, biomacromolecular chemistry, and polymeric functionalization. At ICP-CSIC, he spearheads a dynamic group focusing on enzyme-catalyzed chemical transformations. His professional trajectory includes extensive experience in both independent and collaborative research, having partnered with over 30 institutions globally, including McGill University (Canada), TU-Delft (Netherlands), and Aix-Marseille University (France). Mateo has also contributed significantly to public science engagement and institutional evaluation panels, participating in international scientific assessment for agencies such as CONACYT (Mexico) and the Czech Science Foundation (GAČR). He has actively supported early-career researchers by supervising doctoral, master’s, and undergraduate theses and providing mentorship in multi-disciplinary environments.

Research Interests

César Mateo’s research is centered on the engineering of heterogeneous biocatalysts with enhanced functionality and stability. His investigations merge the chemistry of biomacromolecules like enzymes, antibodies, and DNA probes with synthetic polymers and functionalized materials. Key focus areas include enzyme immobilization, tailor-made support design, post-immobilization modification, and the development of biosensor technologies. His methodologies enable precise control of molecular interactions, leading to highly stable and recyclable catalytic systems for pharmaceutical, environmental, and industrial applications. Mateo’s innovations also extend to activated supports for large-scale protein purification, with a focus on sustainability and scalability in green chemistry.

Awards

Dr. Mateo has received four official research evaluation periods (sexenios), a significant merit in the Spanish research system that reflects consistent excellence and productivity over long-term periods. In addition to these recognitions, he ranks among the top 2% most-cited researchers in the Spanish National Research Council (CSIC), confirming the profound impact of his scientific contributions. His technologies have led to 14 patents, some of which have been successfully licensed, indicating strong translational value and industrial relevance. His dedication to excellence has earned him a place of esteem among both national and international scientific communities.

Notable Publications

Removal of raffinose and stachyose from soy-based beverages using soluble and immobilized MelA α-D-galactosidase from Lactiplantibacillus plantarum WCFS1

Authors: Alves dos Santos, Leandro; Delgado-Fernández, Paloma; Muñoz-Labrador, Ana; Martin-Gutierrez, Diego; Romero, Evelyn C.; Cuaran, Franzory; Garcia-Alvarez, Andrea; García-Calvo, Elena; de las Rivas, Blanca; Muñoz, Rosario et al.
Journal: Lebensmittel-Wissenschaft und-Technologie – Food Science and Technology
Year: 2024

Enzymatic Glycosylation Strategies in the Production of Bioactive Compounds

Authors: Alicia Andreu; Marija Ćorović; Carla Garcia-Sanz; A. Sofia Santos; Ana Milivojević; Clara Ortega-Nieto; Cesar Mateo; Dejan Bezbradica; Jose M. Palomo
Journal: Catalysts
Year: 2023

Glicosil hidrolasas de Lactiplantibacillus plantarum WCFS1

Authors: Plaza-Vinuesa L.; Hernández-Hernández O.; Sánchez-Arroyo A.; Delgado-Fernández P.; Ferreira-Lazarte A.; Cumella J.; López de Felipe F.; Mancheño JM.; Mateo C.; Palomo JM. et al.
Journal: 15ª Reunión de la Red Española de Bacterias Lácticas (Conference Paper)
Year: 2022

Production and Digestibility Studies of β-Galactosyl Xylitol Derivatives Using Heterogeneous Catalysts of LacA β-Galactosidase from Lactobacillus Plantarum WCFS1

Authors: Eduardo Rosado; Paloma Delgado-Fernández; Blanca de las Rivas; Rosario Muñoz; Francisco Javier Moreno; Nieves Corzo; Cesar Mateo
Journal: Molecules
Year: 2022

Combining phenolic grafting and laccase-catalyzed cross-linking: Effects on structures, technofunctional properties and human immunoglobulin E binding capacity of egg white proteins

Authors: Li, Mingqin; Karboune, Salwa; Liu, Lan; Light, Kelly; L’Hocine, Lamia; Achouri, Allaoua; Pitre, Mélanie; Mateo, Cesar
Journal: Food Chemistry
Year: 2021

Assist. Prof. Dr. Congshan Li | Innovative leadership | Best Researcher Award

Published on 30/07/202531/07/2025 by Leadership and Management

Assist. Prof. Dr. Congshan Li | Innovative leadership | Best Researcher Award

Zhengzhou University of Light Industry | China

Author Profile

Scopus

Education

Li’s academic journey began with a Bachelor of Science degree in Physics from Tangshan Normal University in 2009, where he studied under the supervision of Jing Chen. He advanced to Sichuan University, earning his Master of Engineering in Electric Power System and Automation in 2011, and continued at the same institution for his doctoral studies, completing a Ph.D. in the same field in 2014 under the mentorship of Professor Tianqi Liu. This rigorous academic foundation has equipped him with the theoretical and practical skills essential for tackling complex power system issues.

Professional Experience

Since completing his doctoral studies, Congshan Li has been an active faculty member at Zhengzhou University of Light Industry, contributing both to research and to the development of future engineers. As an instructor, he has taught core undergraduate and graduate courses such as Relay Protection of Power System, New Energy Power Generation and Control Technology, and Power System Comprehensive Practice. His consistent involvement in teaching these vital subjects underscores his dedication to academic excellence and mentorship.

Research Interests

Li’s research primarily revolves around the stability analysis and control of multi-terminal flexible DC transmission systems, particularly those incorporating wind and solar energy. His work addresses the challenges of integrating fluctuating renewable energy sources into the grid through advanced control strategies. His expertise extends to multi-level coordinated frequency control, optimal control strategies for HVDC systems, and protection technologies in AC/DC interconnected networks. His contributions are at the forefront of ensuring the reliability of modern power systems in the face of increasing renewable penetration.

Awards and Funded Projects

Li has led multiple prestigious research projects. Notably, he served as the Principal Investigator (PI) for a project funded by the National Natural Science Foundation (2017–2019), receiving ¥230,000 for work on Optimal Control Place Excavation and Multifunction DC Modulation of Multi-Terminal VSC-HVDC Systems. Additionally, he currently leads a Key Scientific and Technological Project of Henan Province (2025–2026), with a grant of ¥100,000, focusing on Multi-Level Coordinated Frequency Control of AC/DC Interconnection Systems with Multiple Types of New Energy. These competitive projects highlight his capability in addressing nationally relevant energy challenges.

Notable Publications

Coordination Design of PSS and STATCOM Based on the IDBO Algorithm to Improve Small-Signal Stability of Wind-PV-Thermal-Bundled Power System

Authors: Congshan Li, et al.
Journal: Journal of Energy Engineering
Year: 2025

Research on Voltage Droop Control Strategy with Additional DC Voltage for VSC-MTDC without DC Voltage Static Deviation

Authors: Congshan Li, et al.
Journal: Journal of Electrical Engineering and Technology
Year: 2025

Short-Term Load Forecasting Based on CNN-BiLSTM Considering Load Time-Varying Trend Mapping

Authors: Congshan Li, et al.
Journal: Recent Advances in Electrical and Electronic Engineering
Year: 2025

Multi-Area System Frequency Response Modelling Considering VSG-Based Energy Storage

Authors: Congshan Li, et al.
Journal: IET Generation, Transmission and Distribution
Year: 2025

The Influence of Additional Virtual Synchronous Generator Technology in VSC-MTDC Systems with Wind Power on System Frequency

Authors: Congshan Li, et al.
Journal: Recent Patents on Engineering
Year: 2025

Dr. Xin Hu | Innovative leadership | Best Researcher Award

Published on 30/07/202530/07/2025 by Leadership and Management

Dr. Xin Hu | Innovative leadership | Best Researcher Award

Chang’an University, China

Xin Hu is a rapidly emerging academic voice in the field of computer vision, multimodal learning, and few-shot learning, currently serving as a Lecturer at the School of Data Science and Artificial Intelligence, Chang’an University, China. With a strong research background in diagram understanding and cross-modal information retrieval, Xin Hu is recognized for bridging the gap between image recognition and language understanding, particularly in educational and knowledge representation contexts. His innovative methodologies address real-world challenges where data scarcity, particularly in educational visual content, hinders effective AI interpretation and deployment. As a researcher with diverse interdisciplinary collaborations, Xin Hu’s work stands at the intersection of artificial intelligence, education technology, and cognitive computing.

Author Profile

ORCID

Education

Xin Hu completed his Bachelor of Engineering in Digital Media Technology and later a Master’s in Computer Technology at Xi’an Shiyou University. He further pursued and earned a Ph.D. in Computer Science and Technology from Xi’an Jiaotong University under the mentorship of Professor Jun Liu. Throughout his academic training, Xin Hu developed foundational skills in artificial intelligence, multimodal signal processing, and machine learning, with a specific focus on visual and linguistic data fusion, eventually applying these to real-world educational datasets and semantic tasks.

Experience

Xin Hu began his formal research journey in 2018 as a Ph.D. candidate, where he contributed to cutting-edge projects under China’s National Key Research and Development Program. He was actively engaged in two major national projects centered on big data knowledge engineering and educational data analysis. These projects aimed to enhance semantic retrieval and intelligent knowledge visualization, particularly in education. His role spanned from system architecture to guiding junior researchers and developing novel few-shot learning frameworks. By late 2023, Xin Hu had joined Chang’an University as a full-time Lecturer, where he continues to explore advanced multimodal learning models with practical educational applications.

Research Interests

Xin Hu’s primary research interests lie in computer vision, particularly few-shot learning, multimodal learning, and visual-linguistic matching tasks. He has demonstrated a unique ability to develop models that operate under limited supervision, focusing on diagrammatic content—an area often overlooked in mainstream AI research. His cross-modal attention frameworks and gestalt-perception-based approaches enable AI systems to better interpret complex visual content, such as diagrams in educational settings. His work in few-shot diagram-sentence matching (Fs-DSM) and gestalt-transformers has further extended AI’s capability to learn from minimal annotated data while preserving semantic integrity.

Awards

While no standalone awards are explicitly listed, Xin Hu has been a consistent contributor to top-tier journals and conferences including IEEE Transactions on Image Processing, Neural Computation, AAAI, and IJCAI. His works have garnered significant citations, demonstrating academic influence and peer validation. As part of national R&D projects, he has also played a key role in transforming applied AI methodologies into deployable knowledge systems. His presence in IEEE and ACM conferences and workshops shows sustained engagement with the global AI research community.

Notable Publications

LFSRM: Few-Shot Diagram-Sentence Matching via Local-Feedback Self-Regulating Memory

Authors: Lingling Zhang, Wenjun Wu, Jun Liu, Xiaojun Chang, Xin Hu, Yuhui Zheng, Yaqiang Wu, Qinghua Zheng
Journal: IEEE Transactions on Pattern Analysis and Machine Intelligence
Year: 2025

Hierarchy-Based Diagram-Sentence Matching on Dual-Modal Graphs

Authors: Wenjun Wu, Lingling Zhang, Jun Liu, Ming Ren, Xin Hu, Jiaxin Wang, Qianying Wang
Journal: Pattern Recognition
Year: 2025

SKFormer: Diagram Captioning via Self-Knowledge Enhanced Multi-Modal Transformer

Authors: Xin Hu, Jiaxin Wang, Tao Gao
Journal: Signal Processing
Year: 2025

Alignment Relation is What You Need for Diagram Parsing

Authors: Xinyu Zhang, Lingling Zhang, Xin Hu, Jun Liu, Shaowei Wang, Qianying Wang
Journal: IEEE Transactions on Image Processing
Year: 2024

Contrastive Graph Representations for Logical Formulas Embedding

Authors: Qika Lin, Jun Liu, Lingling Zhang, Yudai Pan, Xin Hu, Fangzhi Xu, Hongwei Zeng
Journal: IEEE Transactions on Knowledge and Data Engineering
Year: 2023

Assoc. Prof. Dr. Chen Guo | Transformational Leadership | Best Researcher Award

Published on 30/07/2025 by Leadership and Management

Assoc. Prof. Dr. Chen Guo | Transformational Leadership | Best Researcher Award

Xi’an University of Science and Technology, China

Author Profile

ORCID

🎓 Early Academic Pursuits

Guo Chen’s journey into the geological sciences began with a deep-seated curiosity for Earth’s natural resources and a strong academic foundation laid at the China University of Mining and Technology, one of China’s premier institutions for mining and geological engineering. In 2006, he embarked on his undergraduate studies in Geological Engineering, under the guidance of Professor Wei Chongbing. These formative years cultivated his analytical thinking and fieldwork skills, equipping him with the tools to understand the complexities of the Earth’s subsurface structures.

Upon completing his Bachelor of Engineering in 2010, Guo Chen’s passion for geoscience propelled him to pursue advanced studies. He remained at the same institution for his Ph.D. in Geological Resources and Geological Engineering, which he completed in 2015 under the mentorship of Professor Qin Yong. His doctoral research delved deeply into the exploration and efficient development of energy resources, with a special emphasis on unconventional natural gas systems and geological risk mitigation—areas that would later define his career. His academic training laid a solid theoretical framework that enabled him to transition seamlessly into teaching and research.

👨‍🏫 Professional Endeavors

Following the completion of his doctoral studies, Guo Chen joined the Department of Resource Exploration Engineering in the School of Geology and Environment at Xi’an University of Science and Technology in June 2015. His early years as a faculty member were marked by a balance of teaching innovation and a strong commitment to advancing resource exploration science.

From January 2018 to July 2021, he pursued postdoctoral research in geological engineering within the same university, working closely with Professor Ma Dongmin. During this period, Guo Chen expanded his research scope to include gas geological hazard prediction and prevention, contributing important theoretical and applied research findings to the field. His ability to blend academic rigor with real-world geological challenges positioned him as a rising expert in the domains of coal resource development and energy security.

Currently serving as an Associate Professor, he is also a Master’s Supervisor, actively mentoring the next generation of geoscientists while continuously refining his own research agenda.

🔬 Contributions and Research Focus

Guo Chen’s academic work is centered around three vital and interlinked themes in energy geology: unconventional natural gas geology and efficient development, evaluation of coal and coal-bearing associated mineral resources, and the prediction and prevention of gas geological hazards. These areas are critical to China’s energy strategy and environmental safety, especially in resource-rich yet geologically complex regions.

His contributions include the development of innovative models for assessing the potential of coalbed methane and shale gas, and risk-analysis frameworks that help in mitigating geological hazards during mining operations. Furthermore, his integration of modern geological data systems and engineering applications has enriched academic understanding and improved practical outcomes in the field.

In addition to his scientific research, Guo Chen has played a pivotal role in educational reform within his institution. His commitment to curriculum innovation, especially in teaching coalfield geology and embedding ideological and political education into technical courses, exemplifies his holistic vision of engineering education.

🏆 Accolades and Recognition

Guo Chen’s efforts have not gone unnoticed. His dedication to research, education, and service has earned him a series of prestigious recognitions. Most notably, he was selected as one of Shaanxi Province’s “Young Scholars” in the third cohort focusing on Qinling Ecological and Environmental Protection, specifically contributing to the ecological protection and high-quality development of the Yellow River Basin.

He received the Outstanding Reviewer Award from Coal Geology and Exploration in 2023, followed by recognition as a Young Editorial Board Member with Outstanding Contributions in 2024. Within his university, he was honored with the Fifth Xu Jingcai Young Teacher Award, a testament to his teaching excellence and mentorship. Additionally, he was named Outstanding Instructor during the university’s Energy Equipment Innovation Competition, showcasing his ability to foster student innovation and engagement.

🌍 Impact and Influence

Guo Chen’s influence extends beyond the university classroom and research lab. As a member of the Young Expert Academic Committee of Coal Science and Technology and the Young Editorial Committee of Coal Geology and Exploration, he plays a key role in shaping academic discourse and future research directions. His service as Guest Editor of the special issue “Advances in Simultaneous Exploitation of Coal and Associated Energy” in the journal Energies highlights his editorial leadership and international academic visibility.

Through these roles, Guo Chen contributes not only to advancing scientific knowledge but also to building bridges between academia, industry, and environmental stewardship in energy resource management.

🔮 Legacy and Future Contributions

Guo Chen is part of a new generation of scholars who are redefining energy exploration through a lens of sustainability, safety, and educational innovation. His work stands at the crossroads of technological advancement and ecological responsibility, ensuring that future developments in coal and natural gas exploitation are both efficient and environmentally sound.

Looking ahead, his research is poised to delve deeper into smart mining technologies, integrated energy systems, and digital geological modeling, with the goal of improving resource recovery while reducing environmental risk. His commitment to mentoring, scholarly excellence, and public service ensures that his legacy will continue to inspire students, researchers, and practitioners for years to come.

Notable Publications

Quantitative Identification of Water Sources of Coalbed Methane Wells, Based on the Hydrogen and Oxygen Isotopes of Produced Water—A Case of the Zhijin Block, South China

Author: Guo Chen
Journal: Energies
Year: 2022

Geochemical Characteristics of Water Produced from Coalbed Methane Wells in the Southern Qinshui Basin and Construction of an Associated Model: Implications for Coalbed Methane Co-Production

Author: Guo Chen
Journal: Energies
Year: 2022

Ionic composition, geological signature and environmental impacts of coalbed methane produced water in China

Author: Guo Chen
Journal: Energy Sources, Part A: Recovery, Utilization, and Environmental Effects
Year: 2019

Pore Structure and Permeability Characterization of High‐rank Coal Reservoirs: A Case of The Bide‐Santang Basin, Western Guizhou, South China

Author: Guo Chen
Journal: Acta Geologica Sinica – English Edition
Year: 2019

Geological conditions of coalbed methane accumulation in the Hancheng area, southeastern Ordos Basin, China: Implications for coalbed methane high-yield potential

Author: Guo Chen
Journal: Energy Exploration & Exploitation
Year: 2019

Dr. Gina Ioan | Decision-making and Problem-solving | Best Researcher Award

Published on 29/07/2025 by Leadership and Management

Dr. Gina Ioan | Decision-making and Problem-solving | Best Researcher Award

Dunarea de Jos University, Romania

Author Profile

ORCID

Early Academic Pursuits: Foundations in Macroeconomic Thought

From the onset of her academic journey, Dr. Gina Ioan displayed a deep intellectual curiosity in the field of economics. Her early education laid the groundwork for a focused inquiry into the structural and policy-driven aspects of national and international economic systems. As a committed student with a proclivity for analytical thinking, she pursued advanced studies culminating in a Ph.D. in Economics, with a specialization in Macroeconomics. During her doctoral years, she immersed herself in complex economic modeling, fiscal policy frameworks, and global development trends, with particular attention to the dynamics of macroeconomic stability.

Her academic rigor was not limited to theoretical knowledge. She was also involved in empirical research that investigated the socioeconomic conditions of Eastern Europe in the post-transition period. This formative stage of her academic development gave rise to her long-term commitment to understanding how macro-level decisions affect individual lives, regional growth, and long-term sustainability. Her scholarly discipline and determination became apparent during this period, earning her the respect of peers and faculty alike.

Professional Endeavors: A Lecturer Shaping Future Economists

As a Lecturer at the “Dunărea de Jos” University of Galați, Dr. Ioan embraced academia not only as a researcher but also as a passionate educator. Her role within the university involves teaching foundational and advanced macroeconomics courses, where she is known for her clear explanations and thought-provoking discussions. She has mentored undergraduate and postgraduate students alike, guiding many of them in research projects that reflect real-world economic challenges.

In addition to classroom instruction, she actively participates in faculty initiatives, curriculum development, and interdisciplinary academic collaborations. Her dynamic involvement in academia extends to supervising dissertations and fostering critical thinking among students. Her ability to bridge theory and practice has made her a sought-after academic voice within the faculty of economics, and her students consistently acknowledge her mentorship as a defining part of their academic growth.

Contributions and Research Focus: Sustainability, Gender, and Growth

Dr. Gina Ioan’s research output is marked by depth, diversity, and relevance. Her work spans a spectrum of pressing issues in contemporary economics, including macroeconomic policy tools, sustainable development, circular economy models, and the nuanced intersections of inequality and gender economics. Through these thematic pillars, she has contributed to a richer understanding of how economies evolve under stress, adapt to ecological challenges, and reform to achieve inclusive growth.

One of her significant contributions lies in the exploration of macroeconomic stability in post-transition economies, where she evaluates the effectiveness of fiscal and monetary policy mechanisms. Her scholarship has highlighted the importance of policy coherence in promoting both economic resilience and social equity.

Another major strand of her research is dedicated to the circular economy—an increasingly vital paradigm in addressing climate change and sustainability. Through empirical studies and policy analyses, she advocates for integrating circular economy principles into national and regional economic strategies. Additionally, her investigations into gender economics provide a much-needed lens on how macroeconomic policies disproportionately affect women, and how gender inclusion can enhance economic performance at large.

Accolades and Recognition: A Respected Voice in Economic Circles

Dr. Ioan’s academic contributions have not gone unnoticed. Her published research appears in respected journals, and her work is cited across multiple domains, indicating her scholarly influence beyond macroeconomics into social policy and environmental economics. Her participation in national and international conferences has earned her recognition as a forward-thinking economist capable of offering nuanced perspectives on both traditional and emerging economic issues.

She has also been invited to contribute to policy discussions, academic panels, and collaborative research projects, often serving as a bridge between academic theory and policy implementation. Her active profile on platforms like ORCID and Google Scholar reflects the growing reach of her work, both in Romania and internationally.

Impact and Influence: Bridging Policy, People, and Planet

Perhaps one of Dr. Ioan’s most enduring impacts is her ability to contextualize macroeconomic trends within societal and ecological frameworks. She emphasizes that economic growth cannot be considered in isolation from social well-being or environmental limits. This systems-oriented thinking is reflected in her work on sustainable development indicators, the adoption of circular economic principles, and the intersectional analysis of inequality.

Her influence also manifests in her pedagogical approach, where she instills in students a sense of responsibility to view economics not merely as numbers and charts, but as a tool for societal transformation. Through her lectures, publications, and public engagement, she champions a vision of economics that is inclusive, adaptive, and future-focused.

Legacy and Future Contributions: Toward a More Equitable Economy

Looking ahead, Dr. Gina Ioan is poised to continue shaping the discourse on sustainable economic development. Her ongoing research aims to refine the policy mechanisms that support green transitions, reduce inequality, and foster economic resilience in the face of global uncertainties such as climate change, geopolitical shifts, and technological disruption.

She is also likely to take on expanded roles in policy advising, institutional reform, and international research partnerships, given her proven expertise and collaborative spirit. With her sharp intellect, ethical commitment, and visionary approach, Dr. Ioan’s legacy will be one of rigorous scholarship in service of both people and the planet.

Her work serves as a guiding light for future economists who are not only skilled in analysis but also committed to using that skill for meaningful impact.

Notable Publications

The Green Dilemma: Energy Efficiency, Renewables and Economic Challenges in Eastern Europe

Author: Gina Ioan
Journal: Energy Policy
Year: 2025

The Effects of Foreign Direct Investments on Wage Trends in the Dutch Labor Market

Author: Gina Ioan
Journal: Economies
Year: 2025

The Effects of Foreign Direct Investments on Wage Trends in the Dutch Labor Market

Author: Gina Ioan
Journal: Preprints
Year: 2024

Gender-Specific Implications of Foreign Direct Investments on Wage Dynamics in Croatia: A Comprehensive Management Perspective

Author: Gina Ioan
Journal: Administrative Sciences
Year: 2024

Assessing Economic Development and Quality of Life: A Management Perspective on Romania and the Republic of Moldova

Author: Gina Ioan
Journal: Sustainability
Year: 2024

Dr. Ana Agarcia Cabado | Innovative Leadership | Women Researcher Award

Published on 29/07/202529/07/2025 by Leadership and Management

Dr. Ana Agarcia Cabado | Innovative Leadership | Women Researcher Award

ANFACO, Spain

Author Profile

Scopus

Early Academic Pursuits

Ana García Cabado’s journey in the world of science began with a strong academic foundation in the biological sciences. She earned her Licenciatura in Biological Sciences from the Faculty of Biology in 1988, a period when the life sciences were undergoing significant transformation in Spain. Her passion for biology led her to complete a Graduado in Biological Sciences by 1990, deepening her knowledge in areas such as microbiology, physiology, and toxicology.

By 1993, Ana had earned her Ph.D. in Biological Sciences from the Department of Physiology at the Faculty of Biology. This milestone not only marked her entry into advanced research but also signified her commitment to rigorous academic inquiry. Her doctoral studies were likely rooted in exploring the physiological implications of toxic agents in marine organisms, foreshadowing her future specialization in marine biotoxins and food safety. These early academic achievements laid a robust intellectual groundwork for a career defined by both depth and practical relevance.

🧪 Professional Endeavors

Ana’s professional path demonstrates a steady and strategic progression from academic research to applied science and leadership in food safety. Her early teaching role as a secondary school instructor under the Ministry of Education and Science in 1990 reflects her foundational dedication to knowledge dissemination. However, her primary interests soon steered her toward the world of laboratory science and research.

She undertook predoctoral research fellowships at the University of Santiago between 1991 and 1993, immersing herself in laboratory work and beginning to define her scientific focus. Her growing expertise led to multiple contracts of reintegration for postdoctoral researchers from the Ministry of Science and Technology (MCYT) between 1996 and 2001. These contracts were pivotal in strengthening Spain’s national scientific output and marked Ana as a contributor to that strategic vision.

She also served as an associate researcher at the University of Santiago during 1999–2000, further refining her research into the complex interplay of marine toxins and food safety. By 2021, Ana held the position of Researcher at ANFACO-CECOPESCA, a prominent technology center for the seafood sector in Spain. Her role evolved to become Division Head of Food Safety, showcasing her leadership in a field vital to public health and industrial regulation.

🔬 Contributions and Research Focus

Ana García Cabado’s contributions to the scientific community have centered around food quality, marine biotoxins, and toxicological contaminants, both biotic and abiotic. Her work intersects fields such as microbiology, toxicology, environmental monitoring, and analytical food safety—areas of increasing global concern in the context of climate change and marine pollution.

Ana’s earlier responsibilities as Head of the Microbiology and Toxins Area until 2012, and later as Head of the Food Safety Division until 2021 at ANFACO-CECOPESCA, positioned her at the helm of initiatives supporting ISO 17025 laboratory accreditation. This accreditation plays a critical role in ensuring scientific rigor, laboratory excellence, and international quality standards—standards Ana helped uphold and enforce.

Through her multidisciplinary research, Ana has contributed to the detection, analysis, and prevention of marine biotoxins—substances produced by microalgae that can accumulate in seafood and pose health risks to consumers. Her research in this area has helped guide food regulation policy, safety assessment protocols, and consumer protection frameworks in the seafood sector.

🏆 Accolades and Recognition

Although formal awards are not explicitly listed, Ana’s career reflects continuous professional trust and institutional recognition. Her long-standing contracts with the Ministry of Science and Technology, her leadership at ANFACO-CECOPESCA, and her central role in achieving ISO accreditation all speak volumes about her credibility, expertise, and respected status in the scientific community.

Her multilingual abilities—fluent in English, proficient in French, and conversant in Portuguese—further demonstrate her versatility and capacity for international collaboration. These skills have likely expanded her influence beyond Spanish institutions into European research networks focused on marine science and public health.

🌍 Impact and Influence

Ana’s scientific and managerial leadership at ANFACO-CECOPESCA has had a direct impact on Spain’s seafood industry, one of the most prominent in Europe. By leading research in marine biotoxins and toxicological surveillance, she has played a crucial role in enhancing consumer food safety, regulatory compliance, and scientific innovation in the food technology sector.

Her experience also bridges the gap between research and application—an increasingly vital competency in the modern scientific landscape. By maintaining both laboratory expertise and organizational leadership, Ana has influenced not only the direction of food safety research but also policy development and commercial practice.

🌟 Legacy and Future Contributions

Looking ahead, Ana García Cabado’s legacy lies in her sustained commitment to scientific excellence, food safety, and marine environmental health. She has nurtured a culture of quality assurance and analytical rigor that will continue to influence Spanish and European laboratory practices. Her depth of knowledge in biotoxins and toxicological contaminants positions her as a valuable mentor, collaborator, and thought leader.

Her continued work at ANFACO-CECOPESCA offers opportunities to further integrate emerging technologies, such as molecular diagnostics and AI-driven safety analytics, into traditional laboratory frameworks. As marine ecosystems face increasing anthropogenic pressures, Ana’s expertise will remain essential in shaping resilient, safe, and science-based solutions for the future of food safety and environmental protection.

Notable Publications

Nanoparticles of Lignins and Saccharides from Fishery Wastes as Sustainable UV-Shielding, Antioxidant, and Antimicrobial Biofillers

Journal: Biomacromolecules
Year: 2022

Comparison of Different Technologies (Conventional Thermal Processing, Radiofrequency Heating and High-Pressure Processing) in Combination with Thermal Solar Energy for High Quality and Sustainable Fish Soup Pasteurization

Journal: Food and Bioprocess Technology
Year: 2022

Methodological approaches for monitoring five major food safety hazards affecting food production in the Galicia–Northern Portugal Euroregion

Journal: [Not specified; possibly a review journal]

Semi-industrial development of nutritious and healthy seafood dishes from sustainable species

Journal: Food and Chemical Toxicology
Year: 2021

Prof Dr. Jiang Yingjie | Transformational Leadership | Best Researcher Award

Published on 28/07/202528/07/2025 by Leadership and Management

Prof Dr. Jiang Yingjie | Transformational Leadership | Best Researcher Award

School of Psychology, Northeast Normal University, China

Author Profile

ORCID

Early Academic Pursuits

From the very outset of her academic journey, Dr. Jiang Y. has demonstrated a deep commitment to understanding the cognitive development of children, particularly in the domains of memory and metamemory. With a foundation in cognitive psychology and developmental science, she began her scholarly exploration by focusing on how young children—especially those in the formative years between ages 4 to 6—develop their episodic memory and the ability to monitor it. Her early investigations led to substantial findings, such as those detailed in her comprehensive monograph, Development of Children’s Episodic Memory and Its Monitoring Abilities (2018), which not only synthesized her initial research but also laid the groundwork for a career dedicated to unearthing the complexities of cognitive growth in children.

Even before this, her earlier work such as the 2011–2019 project on the Development of Children’s Metamemory and Its Influencing Factors, supported by the Philosophy and Social Sciences Planning Project of Jilin Province, showcased her early commitment to rigorous, longitudinal research. These formative academic experiences laid a strong intellectual foundation that would drive her forward into larger, national-level projects.

Professional Endeavors

Dr. Jiang’s career has steadily progressed into high-impact roles through her involvement in numerous major research initiatives funded by prestigious national agencies in China. Her research trajectory is marked by a consistent and methodical exploration of metamemory—an individual’s awareness and understanding of their own memory capabilities.

Among her most significant undertakings is the Mapping Brain-Cognitive Development and Comprehensive Assessment, Subtyping, and Early Warning of Developmental Trajectories project, funded under the landmark Science and Technology Innovation 2030 – Major Project. Running from 2021 to 2026, this work represents a pinnacle of interdisciplinary collaboration, merging neuroscience, psychology, and big data analytics to understand early brain-cognitive developmental pathways.

Her professional efforts extend beyond basic research into applied domains, including the Empathy Development Characteristics in Left-Behind Children in China (2019–2024), a socially-driven project supported by the National Social Science Fund of China. This initiative reflects a compassionate and ethical dimension to her professional journey—engaging with underrepresented populations and highlighting the psychological consequences of socio-familial separation.

Contributions and Research Focus

Dr. Jiang’s work centers on several interlocking themes within cognitive psychology: metamemory, episodic memory, reward processing, and developmental mechanisms of empathy. Her research is distinguished by its methodological diversity—incorporating behavioral studies, eye-tracking, electrophysiological measurements (EEG/ERP), and longitudinal child studies.

In the project The Cognitive and Neural Mechanisms of Metamemory Monitoring Accuracy (2023–2026), she investigates the role of hierarchical cues in monitoring accuracy, contributing to foundational knowledge in metacognitive science. Similarly, in the study on Reward Prediction Error and Memory (2023–2025), funded by the Natural Science Foundation of Jilin Province, she explores how unexpected outcomes (reward prediction errors) shape both memory formation and metacognitive assessments—an area bridging cognitive psychology with computational neuroscience.

Her pioneering concept of Value-Directed Metamemory, elaborated in her 2016 monograph, reflects her theoretical innovation in understanding how value assignment influences memory encoding, retrieval, and control.

Accolades and Recognition

Dr. Jiang’s research excellence has not gone unnoticed. Her projects have received sustained support from China’s most competitive funding bodies, such as the National Natural Science Foundation, the National Social Science Fund, and various regional science planning agencies. The fact that she has led multiple large-scale, long-term research initiatives—often overlapping—testifies to her exceptional capability in research leadership, coordination, and mentorship.

Her publications, particularly the two monographs published by Science Press, further signify national recognition and scholarly authority in her field. These texts are not only academic contributions but also educational resources that inform both future research and psychological practice.

Impact and Influence

The real-world impact of Dr. Jiang’s work is multifaceted. Her exploration of empathy development in left-behind children has implications for national education policy and psychological interventions in rural China. Meanwhile, her cognitive research feeds into improved educational tools, early warning systems for cognitive disorders, and evidence-based practices in child development assessment.

Her commitment to translational science ensures that complex neural and cognitive theories are applicable to public health, child welfare, and educational psychology. She has influenced the next generation of researchers, not just through her leadership in multidisciplinary teams but also through her widely cited and pedagogically significant monographs.

Legacy and Future Contributions

Looking ahead, Dr. Jiang’s contributions are poised to influence both scientific and social domains even more profoundly. Her involvement in the Science and Technology Innovation 2030 initiative suggests a forward-looking agenda aligned with national strategies for brain and mental health. Her capacity to integrate behavioral, neurological, and societal perspectives promises new insights into early detection and intervention for developmental issues.

Her legacy will be one of rigorous scientific inquiry balanced with deep social awareness—paving the way for inclusive, science-backed education and mental health strategies. As she continues to bridge basic research with applied societal needs, Dr. Jiang exemplifies what it means to be a scholar whose work truly matters—both in the lab and in the lives of children across the nation. 🧠📚👶

Notable Publications

Metacognitive Unawareness of Feedback Influences Future Memory Prediction but Not Postdiction

Authors: Khin Theint Theint Soe, Yingjie Jiang, Jiaying Wang, Yang Yu, Yanlin Guo
Journal: Current Psychology
Year: 2024

Metacognitive Illusions: A Positivity Effect in Judgments of Learning for Older but Not Younger Adults

Authors: Xiaojun Sun, Yingjie Jiang
Journal: Journal of Intelligence
Year: 2023

Differential Modulation of Creative Problem Solving by Monetary Rewards: Electrophysiological Evidence

Authors: Can Cui, Kaiyu Wang, Yiting Long, Yingjie Jiang
Journal: Current Psychology
Year: 2023

The Dissociating of Reward Feedback on Familiarity and Recollection Processing: Evidence from Event-Related Potential

Authors: Liu F., Jiang Y., Li S.
Journal: NeuroReport
Year: 2022

Reward Uncertainty and Expected Value Enhance Generalization of Episodic Memory

Authors: Yang Yue, Yingjie Jiang, Fan Zhou, Yuantao Jiang, Yiting Long, Kaiyu Wang
Journal: International Journal of Environmental Research and Public Health
Year: 2022