Dr. Youming Wang | Team Building and Team Management | Best Researcher Award

Dr. Youming Wang | Team Building and Team Management | Best Researcher Award

Xi’an University of Posts and Telecommunications, China

Author Profile

Scopus

🎓 Early Academic Pursuits

Youming Wang’s journey in academia began with a strong foundation in mechanical engineering, earning his Master of Science degree from Xi’an University of Technology in 2006. His early academic endeavors reflected a growing curiosity about mechanical systems, particularly how they behave under stress, wear, and fluctuating environmental conditions. Driven by a desire to delve deeper into the intricacies of engineering systems, Wang continued his academic journey at Xi’an Jiaotong University, one of China’s most prestigious institutions, where he obtained his Ph.D. in Mechanical Engineering in 2010.

During his formative academic years, Wang developed a keen interest in the dynamic behavior of mechanical structures. His research during this period focused on laying a solid theoretical foundation in fault detection, signal processing, and vibration analysis—areas that would later define the trajectory of his career. His doctoral studies equipped him not only with rigorous technical expertise but also with a vision to address real-world mechanical challenges using cutting-edge engineering principles.

🛠️ Professional Endeavors

Following the completion of his Ph.D., Professor Youming Wang began his academic and research career at the Xi’an University of Posts and Telecommunications, where he currently serves as a full professor. In this role, he has been instrumental in shaping both the academic curriculum and research direction within the department of mechanical and electrical engineering.

His professional life is marked by a balance of scholarly excellence and practical engineering application. At the university, Wang has mentored numerous graduate students and led several projects, bridging the gap between theoretical research and industry needs. His role also includes collaboration with industrial partners to apply research in fault detection and vibration control to complex engineering systems in telecommunications and manufacturing sectors.

🔬 Contributions and Research Focus

Professor Wang’s research is centered on fault diagnosis, vibration control, and structural health management—fields that are crucial to the reliability and safety of modern mechanical systems. His work involves the development of diagnostic algorithms and predictive maintenance tools that allow engineers to detect faults in complex machinery before catastrophic failures occur.

By integrating advanced signal processing techniques, artificial intelligence, and sensor-based monitoring, Wang has contributed to the evolution of smart maintenance systems. These systems are especially important in industries where downtime due to mechanical failure can lead to significant financial losses or safety risks. His research has helped establish frameworks for real-time structural monitoring, ensuring early detection of issues in bridges, turbines, and high-precision equipment.

🏅 Accolades and Recognition

Over the years, Professor Wang has received widespread recognition for his contributions to mechanical engineering and applied diagnostics. Notably, he is a Fellow of the Chinese Communications Society, reflecting his interdisciplinary engagement with engineering and communications technologies. He is also a Director of the Fault Diagnosis Branch of the Chinese Society of Vibration Engineering, a role that underscores his leadership in advancing the field at the national level.

These distinctions highlight Wang’s professional esteem and validate the significance of his contributions to both academia and industry. His leadership roles also position him as a key figure in setting national research agendas and fostering innovation in structural health technologies.

🌏 Impact and Influence

The impact of Professor Wang’s work extends far beyond the university classroom or laboratory. His research has direct applications in several high-stakes industries, including transportation, energy, aerospace, and civil infrastructure. By enabling early fault detection and precision control, his methods help reduce maintenance costs, enhance operational safety, and extend the life span of critical assets.

Wang’s publications have influenced scholars and practitioners across the globe, contributing to a growing body of literature that blends traditional mechanical engineering with emerging digital tools such as machine learning and IoT-enabled diagnostics. His role in mentoring young researchers has also ensured the continuity and evolution of research in this vital area.

🌟 Legacy and Future Contributions

As Professor Youming Wang continues to advance in his career, his focus remains firmly on innovation and interdisciplinary integration. With the growing emphasis on smart cities, cyber-physical systems, and sustainable infrastructure, his expertise in fault diagnosis and structural health monitoring positions him to make lasting contributions to these emerging areas.

Looking ahead, Wang is likely to expand his work into AI-driven fault prediction systems, collaborative robotic diagnostics, and the development of integrated health management frameworks for next-generation infrastructure. His blend of academic rigor, technical proficiency, and visionary leadership ensures that his legacy will be marked by continued influence on both the engineering community and society at large.

An extended iterative filtering and composite multiscale fractional-order Boltzmann-Shannon interaction entropy for rolling bearing fault diagnosis

Author(s): Y. Wang (Youming), X. Wang (Xianzhi), G. Chen (Gaige)
Journal: Applied Acoustics
Year: 2025

 Res-TCEANet: An expansive attention mechanism with positional correspondence based on semi-supervised temporal convolutional network for RUL estimation

Author(s): Y. Wang (Youming), Y. Huang (Yirun)
Journal: Measurement: Journal of the International Measurement Confederation
Year: 2025

A fault diagnosis method of rolling bearings based on masking differential iterative filtering and Euclidean mixed entropy

Author(s): Y. Wang (Youming), X. Yang (Xing), S. Jiao (Shiting)
Journal: Measurement Science and Technology
Year: 2025

 A Multilevel Attitude-Aware Denoising Network for Bearing Fault Diagnosis

Author(s): Y. Wang (Youming), Y. Kang (Yezi), Y. Huang (Yirun)
Journal: IEEE Transactions on Industrial Informatics
Year: 2025

 A Fault Diagnosis Model Based on IFSS-CK-Means Algorithm for the Bolted Structure

Author(s): X. Yang (Xingdong), Y. Wang (Youming), X. Gao (Xiang), J. Tan (Jiyong)
Journal: Conference Paper
Year: (Not specified, assumed 2025 based on others)

Mr. Asahi Matsubara | leadership | Best Researcher Award |3637

Mr. Asahi Matsubara | leadership | Best Researcher Award

Graduate school of Nippon Sport Science University, Japan

Author Profile

Orchid 

🌱 Early Academic Pursuits

Asahi Matsubara’s journey into academia and research began with a deep curiosity about human potential and a strong passion for sport psychology. From the earliest days of higher education, Asahi displayed a distinct interest in understanding the psychological intricacies that shape athletic performance and team dynamics. This passion led Asahi to pursue graduate studies at the esteemed Graduate School of Nippon Sport Science University, a leading institution recognized for producing top-tier sports professionals and researchers in Japan. During the formative academic years, Asahi honed critical thinking, empirical research skills, and a commitment to ethical scholarship, laying the foundation for a promising research-oriented career in sports and exercise psychology.

🏫 Professional Endeavors

Currently based at the Graduate School of Nippon Sport Science University, Asahi Matsubara is deeply engaged in both academic learning and empirical research. One of the key hallmarks of Asahi’s professional journey is the commitment to applying advanced psychological theories to real-world athletic settings. This includes investigating how leadership dynamics influence the behaviors and well-being of student-athletes—an area of study that has critical implications for both sports psychology and coaching practices in educational institutions.

In particular, Asahi’s recent work titled “Conditional process analysis of the impact of coach leadership on the voice of Japanese student-athletes”—published in the Asian Journal of Sport and Exercise Psychology (2025)—exemplifies a nuanced approach to understanding the psychological processes underlying athlete-coach interactions. The research not only reflects Asahi’s academic rigor but also emphasizes real-world relevance by focusing on the lived experiences of Japanese student-athletes. 📘

🔬 Contributions and Research Focus

Asahi Matsubara’s primary research focus lies at the intersection of leadership psychology, athlete behavior, and educational sports systems. With a keen interest in voice behavior, Asahi explores how athletes express their ideas, concerns, or feedback to coaches, and how leadership styles either foster or inhibit such behaviors. Using sophisticated methodologies like conditional process analysis, Asahi’s research illuminates the mediating and moderating variables that shape this dynamic.

The publication of the 2025 journal article in a Scopus-indexed journal serves as a critical milestone in this research journey. Moreover, Asahi’s scholarly contributions reflect a dedication to data-driven insights that can transform coaching models in educational and professional sports institutions alike.

Beyond publishing, Asahi is actively involved in academic collaborations and maintains an interest in interdisciplinary approaches to sport science. With a citation index that is steadily growing, Asahi is carving out a reputation as a rising scholar in the sport and exercise psychology research community. 📊

🏆 Accolades and Recognition

While still early in the professional journey, Asahi’s contributions have already begun to garner attention within academic circles. The nomination for the Best Researcher Award is a testament to the quality, originality, and impact of Asahi’s work. Recognition by peers and senior scholars is a significant milestone that affirms the value and relevance of Asahi’s contributions to the academic and sports communities.

Such acknowledgment is not only a personal achievement but also a motivator for continued excellence. It reinforces Asahi’s belief in the importance of scientific inquiry and its ability to create meaningful change in how we understand athletic performance and leadership. 🥇

🌏 Impact and Influence

Asahi Matsubara’s research goes beyond academic boundaries. By investigating psychological variables in coaching and athlete behavior, Asahi contributes to the development of healthier, more communicative, and empowered athletic environments. The implications of Asahi’s work extend to sports coaches, athletic trainers, school administrators, and policy-makers.

Student-athletes, especially in high-pressure academic contexts like Japan, benefit immensely from research that aims to enhance psychological safety and promote assertiveness. Through Asahi’s findings, institutions are better equipped to build trust-based relationships between coaches and athletes, ultimately leading to improved mental health and performance outcomes. 🌐

🌟 Legacy and Future Contributions

Looking ahead, Asahi Matsubara envisions a future filled with impactful contributions to the field of sport and exercise psychology. Plans are underway to expand current research themes into longitudinal studies, incorporating broader cultural variables and diverse athletic populations. Asahi is also eager to contribute to textbook development, academic teaching, and cross-institutional collaborations in Japan and internationally.

With a strong academic base, growing research portfolio, and commitment to social impact, Asahi aims to leave a legacy not just as a scholar, but as a transformational figure in educational sports systems. The long-term goal is to reshape coaching paradigms and champion athlete-centered practices that prioritize mental well-being and mutual respect. 🧭

Asahi Matsubara stands today not only as a researcher with promise but also as a symbol of the new generation of scholars—those who blend scientific excellence with societal relevance.

📝Notable Publications

Conditional process analysis of the impact of coach leadership on the voice of Japanese student-athletes

Author: Matsubara Asahi
Journal: Asian Journal of Sport and Exercise Psychology
Year: 2025

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

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

Author Profile 

Scopus  

🌱 Early Academic Pursuits

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

💼 Professional Endeavors

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

🧠 Contributions and Research Focus

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

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

🏅 Accolades and Recognition

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

🌍 Impact and Influence

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

✨ Legacy and Future Contributions

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

📝Notable Publications

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

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

Dr. Abdulwahab Salah | Innovative Leadership | Best Researcher Award

Dr. Abdulwahab Salah | Innovative Leadership | Best Researcher Award

Author Profile 

Google Scholar 

🎓 Early Academic Pursuits

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

💼 Professional Endeavors

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

🔬 Contributions and Research Focus

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

🏆 Accolades and Recognition

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

🌍 Impact and Influence

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

🔮 Legacy and Future Contributions

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

📝Notable Publications

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

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

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

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

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

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

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

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

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

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

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

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

CSIR, South Africa

Author Profile 

Scopus

🎓 Early Academic Pursuits

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

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

🧪 Professional Endeavors

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

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

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

🔬 Contributions and Research Focus

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

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

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

🏅 Accolades and Recognition

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

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

🌍 Impact and Influence

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

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

🔮 Legacy and Future Contributions

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

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

📝Notable Publications

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

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

Prof Yasir Jamil | Team Building and Team Management | Best Researcher Award

Prof Yasir Jamil | Team Building and Team Management | Best Researcher Award

Author Profile 

Google Scholar

🎓 Early Academic Pursuits

Dr. Yasir Jamil’s journey into the world of physics began with a stellar academic record that showcased his passion and natural aptitude for the sciences from an early age. Born on March 1, 1973, in Faisalabad, Punjab, he consistently demonstrated academic excellence. He completed his Matriculation in 1989 from the BISE Faisalabad with a First Division and was honored with a Silver Medal 🥈 for his outstanding performance in the Science Group. This early distinction laid a strong foundation for his future academic endeavors. In 1991, he again excelled in his Intermediate examinations in the Pre-Engineering Group, securing a First Division.

His undergraduate studies at Punjab University, Lahore, culminated in a B.Sc. in Physics and Mathematics in 1994 with a First Division. He then pursued his passion further with an M.Sc. in Physics at the University of Agriculture, Faisalabad in 1997, where he graduated with a Gold Medal 🥇, signaling his emergence as one of the brightest minds in the field. Not resting on his laurels, he earned an M.Phil. in Physics in 2001 from the same institution, finishing with a top position. In 2009, he completed his Ph.D. in Physics from Quaid-i-Azam University, Islamabad, with a specialization in Laser Spectroscopy — a niche yet increasingly vital area of research.

👨‍🏫 Professional Endeavors

Dr. Jamil’s professional career is deeply interwoven with the University of Agriculture, Faisalabad, where he currently serves as a Professor (Tenured) and Chairman of the Department of Physics. In this leadership role, he not only mentors students and young researchers but also shapes the academic and strategic direction of the department. His administrative and academic stewardship has helped foster an environment that encourages curiosity-driven research and interdisciplinary collaboration.

Over the years, Dr. Jamil has been actively involved in both teaching and high-impact research, solidifying his reputation as a versatile academic. With a keen interest in applied physics and laser technologies, he has successfully bridged the gap between theoretical understanding and practical applications — a hallmark of impactful scientific careers.

🔬 Contributions and Research Focus

Dr. Jamil’s research centers around laser-matter interaction, exploring its diverse applications in fields like agriculture, nanomaterials, energy, and environmental science. His work in Laser Induced Breakdown Spectroscopy (LIBS) has yielded substantial advancements in pollutant detection and nanomaterials characterization. He has served as the Principal Investigator for seven research projects and as Co-Principal Investigator in eight others, some of which are internationally funded, including one under the COMSTECH TWAS Joint Research Grants Program.

His ongoing research reflects a dynamic portfolio: from spectrochemical analysis of pollutants to the synthesis of gold nanoparticles for biophysical applications, and even engineering innovations like the development of a portable solar umbrella ☂️ powered by sustainable energy. His innovative work has made tangible contributions to scientific knowledge and technological progress.

🏅 Accolades and Recognition

Dr. Yasir Jamil’s commitment to research excellence is reflected in his impressive publication record. With 153 research papers published in ISI and HEC-recognized journals, he boasts a total impact factor of 300.52, alongside 3214 citations, an h-index of 32, and an i10 index of 68. These metrics reflect the high quality and influence of his scholarly contributions 📚.

His accolades include top academic medals during his early career and several grants from prestigious organizations like the Higher Education Commission of Pakistan and the Pakistan Science Foundation, which underscore the national and international trust in his research vision.

🌍 Impact and Influence

Dr. Jamil’s research has left a mark not only within Pakistan but across the global scientific community. His collaborative projects — particularly those involving spectroscopy and nanotechnology — contribute to pressing global challenges such as environmental monitoring, sustainable energy, and agricultural development 🌱. His work often merges fundamental physics with practical innovation, helping to solve real-world problems using cutting-edge science.

Through mentorship and institutional leadership, he has inspired a new generation of physicists and researchers, many of whom continue to carry his legacy of scientific excellence forward. His influence extends to policy and funding bodies, where his expertise is frequently sought for guiding research direction and priorities.

🧬 Legacy and Future Contributions

Looking ahead, Dr. Yasir Jamil is poised to further expand the boundaries of laser-based technologies and their real-world applications. His current projects hint at the integration of physics with biotechnology, energy systems, and environmental sciences, making his work increasingly interdisciplinary. His focus on practical innovation — such as the development of laser-assisted tools for agriculture or sustainable urban devices — shows his dedication to translating academic research into societal benefits 🌐.

In the years to come, Dr. Jamil’s legacy will be marked by not only his impressive body of research but also his role in building research capacity in Pakistan, mentoring young scientists, and contributing to technological self-reliance. His name is already well-regarded in physics and applied laser research circles, and his journey is a beacon for aspiring researchers aiming to merge excellence with impact. ✨

📝Notable Publications

 Rb quantum defects from millimeter-wave spectroscopy of cold Rydberg atoms

Author(s): J. Han, Y. Jamil, D.V.L. Norum, P.J. Tanner, T.F. Gallagher
Journal: Physical Review A – Atomic, Molecular, and Optical Physics
Year: 2006

Measurement of electron density and temperature of a laser-induced zinc plasma

Author(s): N.M. Shaikh, B. Rashid, S. Hafeez, Y. Jamil, M.A. Baig
Journal: Journal of Physics D: Applied Physics
Year: 2006

Diode lasers: From laboratory to industry

Author(s): H. Nasim, Y. Jamil
Journal: Optics & Laser Technology
Year: 2014

Effect of presowing magnetic treatment on properties of pea

Author(s): M. Iqbal, Z.U. Haq, Y. Jamil, M.R. Ahmad
Journal: International Agrophysics
Year: 2012

Investigation of structural and magnetic properties of Ce³⁺-substituted nanosized Co–Cr ferrites for a variety of applications

Author(s): G. Mustafa, M.U. Islam, W. Zhang, Y. Jamil, A.W. Anwar, M. Hussain, M. Ahmad
Journal: Journal of Alloys and Compounds
Year: 2015

Laser light and magnetic field stimulation effect on biochemical, enzymes activities and chlorophyll contents in soybean seeds and seedlings during early growth stages

Author(s): T. Asghar, Y. Jamil, M. Iqbal, M. Abbas
Journal: Journal of Photochemistry and Photobiology B: Biology
Year:(Exact year not listed, but likely 2016 based on volume number)

Mehre Munir-Communication in Leadership-Best Researcher Award-2629

Dr. Mehre Munir-Communication in Leadership-Best Researcher Award

Prince Sultan University-Saudi Arabia

Author Profile 

 

Early Academic Pursuits

Dr. Mehr E Munir embarked on their academic journey with a strong foundation in electrical engineering, specializing in communication systems. Starting from their Bachelor's degree at City University of Science and Information Technology Peshawar, they consistently excelled, securing first divisions throughout. This early academic success laid the groundwork for their future accomplishments in the field of telecommunications and engineering.

Professional Endeavors

Transitioning from academic excellence to professional achievements, Dr. Munir's career trajectory showcases a dedication to pushing the boundaries of communication engineering. Their Master's thesis on miniaturizing multiband microstrip patch antennas using DGS and stack configuration marked the beginning of a deep dive into antenna design and optimization. This expertise was further honed during their Ph.D., focusing on next-generation mmWave antenna systems, demonstrating a shift towards cutting-edge technologies in the field.

Contributions and Research Focus

Dr. Munir's contributions to the field of communication engineering are significant and diverse. Their research papers, presented at various international conferences, delve into topics such as miniaturization of patch antennas for different frequency bands, intelligent schemes for source management, and novel antenna configurations for 4G, LTE, and S-band applications. These contributions showcase a keen interest in advancing wireless communication technologies, particularly in optimizing antenna performance for a wide range of applications.

Accolades and Recognition

The numerous certificates and awards Dr. Munir has received reflect their active participation and recognition in the academic and professional communities. From certificates of participation in workshops and conferences to awards for presenting innovative research at prestigious events like IEEE conferences, their accomplishments underscore a commitment to excellence and continuous learning in their field.

Effective communication is paramount in leadership, serving as the cornerstone for building trust, fostering collaboration, and achieving organizational goals. A leader's ability to communicate clearly, empathetically, and persuasively plays a pivotal role in inspiring and motivating teams. Clear communication of goals, expectations, and vision helps align individuals towards a common purpose, reducing ambiguity and fostering a sense of direction and clarity. Moreover, effective communication enables leaders to actively listen to their team members, understand their perspectives, and address concerns, thereby promoting a culture of openness, inclusivity, and mutual respect.

Impact and Influence on Communication in Leadership 

Dr. Munir's work extends beyond personal achievements; it has a broader impact on the field of communication engineering. Their research into miniaturized antennas, intelligent source management schemes, and next-gen mmWave systems contributes to advancing wireless communication technologies, potentially influencing the development of future communication standards and devices.

In addition to facilitating day-to-day operations, communication in leadership extends to strategic decision-making and change management. Leaders must communicate strategic priorities, changes, and initiatives effectively to gain buy-in from stakeholders and navigate challenges smoothly. Transparent communication during times of change fosters resilience, reduces resistance, and enhances adaptability within the organization. Overall, effective communication is not just a skill but a fundamental trait of successful leaders, enabling them to build strong relationships, drive innovation, and steer their teams towards sustainable success.

Legacy and Future Contributions

Looking ahead, Dr. Munir's legacy lies in their pioneering work in antenna design and optimization. Their contributions to the miniaturization of antennas, intelligent source management, and advancements in mmWave systems pave the way for future engineers and researchers in the field. Their focus on practical applications, combined with theoretical expertise, ensures a lasting impact on wireless communication technologies.

In conclusion, Dr. Mehr E Munir's academic pursuits, professional endeavors, research focus, accolades, and contributions have established them as a prominent figure in communication engineering. Their work not only reflects personal achievements but also contributes significantly to advancing the field and shaping its future trajectory.

Notable publications 

Dr. Prudencia Gutierrez-Esteban-Innovative Leadership-Best Researcher Award

Dr. Prudencia Gutierrez-Esteban-University of Extremadura -Innovative Leadership

Dr. Prudencia Gutierrez-Esteban : Innovative Leadership

Professional Profile  

Early Academic Pursuits

Dr. Prudencia Gutiérrez Esteban embarked on her academic journey by obtaining a predoctoral research grant in 2002, leading to the completion of her PhD in Pedagogy in 2007. During her early academic years, she demonstrated a commitment to educational sciences.

Professional Endeavors

Since 2005, Dr. Gutiérrez Esteban has been actively engaged in various academic roles, including positions such as Profesora Ayudante Doctora, Profesora Titular Interina, and later, as a Subdirectora del Campus Virtual de la UEx and Directora Educativa del Campus Virtual de la UEX.

Contributions and Research Focus

Her research focuses on Educational Technology, Online Learning Communities, Personal Learning Environments, and Innovation in Education. Dr. Gutiérrez Esteban has made significant contributions to the field, evident in her extensive publication record, including 22 national and 16 international papers, 5 books, and 25 book chapters. She has actively participated in numerous national and international conferences and research projects.

Accolades and Recognition

Throughout her career, Dr. Gutiérrez Esteban has received notable recognition, including two national prizes: RUTE Young Researchers (2012) and the Santander Grant for Young Researchers (2013). Her expertise extends beyond national borders, with research stays in countries such as Russia, Australia, Argentina, Cuba, Poland, the United Kingdom, and Germany.

Impact and Influence

As a University Senior Lecturer, she has supervised numerous academic works, including 25 TFG, 12 TFM, 3 DEA, and 7 Doctoral Theses. Her influence also extends to university management, where she served as Vice Dean of International Relations and held various leadership roles within the university.

Legacy and Future Contributions

Dr. Gutiérrez Esteban has left an indelible mark on the academic landscape through her commitment to research, teaching, and university administration. With an H Index of 15 and over 900 citations, her work continues to shape the discourse in Educational Technology. As she continues her role as Profesora Titular de Universidad, her future contributions are eagerly anticipated, building upon her rich legacy in academia.

Notable Publications

Buenas prácticas en el desarrollo de trabajo colaborativo en materias TIC aplicadas a la educación

A descriptive literature review of phubbing behaviors

Los feminismos en el siglo XXI: Pluralidad de pensamientos

Los Entornos Personales de Aprendizaje (PLE). Una experiencia de aprendizaje informal en la formación inicial del profesorado/The Personal Learning Environments (PLE). An …

La orientación vocacional y el género

La Inteligencia Artificial como recurso educativo durante la formación inicial del profesorado

Development of the digital and socio-civic skills (DIGISOC) questionnaire

Citations

  • Citations    1018  696
  • h-index      17      13
  • i10-index   26      17