Prof. Yonglin Chen| Innovative Leadership | Best Research Article Award

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Prof. Yonglin Chen| Innovative Leadership | Best Research Article Award

Anhui Jianzhu University, China

Author Profile

Scopus

🌱 Early Academic Pursuits

Chen Yonglin’s academic journey began with a Bachelor of Engineering in Mechanical Design, Manufacturing, and Automation from Shenyang Ligong University (2011–2015). His foundational studies in mechanical engineering equipped him with a robust understanding of design principles and industrial automation. He further pursued a Master’s degree in Mechanical Engineering from Inner Mongolia University of Technology (2015–2018), where he was recognized as an Outstanding Student Cadre, highlighting his leadership potential.

🌐 Professional Endeavors

Chen Yonglin embarked on his professional journey as a Junior Researcher at the Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences (2018–2020). During this period, he contributed to combustion performance detection projects in collaboration with China Tobacco, where he developed algorithms for image segmentation and key target detection in complex environments. His expertise in computer vision and algorithm design laid the foundation for his transition to a research-focused career.

In 2023, Chen Yonglin joined Anhui University as a Teaching and Research Faculty in the School of Electronics and Information Engineering. Here, he engages in teaching Python and artificial intelligence while conducting cutting-edge research in these fields.

🔬 Contributions and Research Focus

Chen’s research is primarily centered on artificial intelligence, medical imaging, and disease prediction. His notable contributions include a contrastive learning framework for Alzheimer’s disease classification using brain 18F-FDG PET (published in IEEE Journal of Biomedical and Health Informatics, JCR Q1, IF:7.7) and a multi-feature fusion model for Alzheimer’s prediction using EEG signals (Frontiers in Neuroscience, JCR Q2, IF:4.3). His ongoing work on multi-feature fusion learning for Alzheimer’s prediction using PET images is under review at IEEE Transactions on Medical Imaging (JCR Q1, IF:10.6).

🏆 Accolades and Recognition

Chen’s excellence has been recognized through several prestigious awards, including:

  • 🥈 1st Runner-up in the Huawei Cloud PRCV Alzheimer’s Disease Classification Challenge (2021, National Level).
  • 🥉 2nd and 3rd Prizes in the China Graduate Electronics Design Competition (North China Division, 2017 and 2018).
  • 🎖️ Award from iFLYTEK Co., Ltd. (2024).

🌟 Impact and Influence

Beyond his research, Chen has served as a reviewer for high-impact journals such as Computers in Biology and Medicine, Physics in Medicine and Biology, and Scientific Reports. His role as an organizer and judge for the Disease Prediction Challenge (2020–Present) demonstrates his commitment to advancing medical AI research. The challenge, in partnership with iFLYTEK, has drawn over 2,000 teams (10,000+ participants) from institutions such as USTC, UESTC, and JDAI.

🚀 Legacy and Future Contributions

As Chen Yonglin continues his academic and research journey, his work in artificial intelligence and medical imaging is expected to make significant contributions to early disease detection and diagnosis. With his proven expertise and leadership in medical AI, he is poised to further influence the field, driving innovations that can enhance healthcare outcomes globally.”)}

📝Notable Publications

An annotated heterogeneous ultrasound database

Authors: Yuezhe Yang, Yonglin Chen, Xingbo Dong, Zhe Jin, Yong Dai

Journal: Scientific Data

Year: 2025

Mr. Guangyao Li | adsorption | Best Researcher Award

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Mr. Guangyao Li | adsorption | Best Researcher Award

kyushu university, Japan

Author Profile

Scopus

🌱 Early Academic Pursuits

Lee Kuan Yew’s journey in academia began with a strong foundation in engineering, a field that combines creativity, problem-solving, and technical knowledge. Hailing from Xinxiang, Henan, he pursued his undergraduate studies at Henan Polytechnic University, where he earned a Bachelor of Engineering in Mechanical Design. His education in this institution laid the groundwork for his understanding of core mechanical concepts, including Engineering Thermodynamics, Mechanical Design, and Automation Technology. These formative years instilled in him a profound appreciation for the principles of mechanics and thermodynamics, which would later become central to his research.

Driven by an unrelenting desire for advanced knowledge, Lee Kuan Yew furthered his studies at Zhengzhou University, a prestigious Double First-Class institution, where he earned a Master of Engineering in Power Engineering. His curriculum covered a wide range of subjects, from Advanced Heat Transfer and Fluid Mechanics to Numerical Analysis and Industrial Energy Management. These courses equipped him with both theoretical insights and practical skills, making him proficient in the nuances of energy systems. His academic prowess and enthusiasm for research led him to pursue a Ph.D. in Mechanical and System Engineering at Kyushu University in Japan, sponsored by the China Scholarship Council (CSC). At this renowned institution, he delved into complex topics like Thermal Energy Utilization Systems and Numerical Fluid Mechanics, honing his expertise in thermal engineering.

🚀 Professional Endeavors

Lee Kuan Yew’s professional journey has been marked by diverse and impactful experiences. Since 2022, he has been actively involved in the development of adsorption refrigeration and heat pump systems at Mitsubishi Electric Corporation. His role has been pivotal in designing and constructing a fixed-volume adsorption isotherm measurement device and analyzing the adsorption characteristics of materials for refrigerants like R245fa. This work not only refined his technical skills but also positioned him at the forefront of sustainable energy technology.

His expertise in adsorption technology further extended to collaborative research with ENEOS from 2022 to 2024, where he investigated the absorption characteristics of novel compressor oils and refrigerants under varying pressures and temperatures. His meticulous data collection and analysis contributed significantly to the development of advanced energy systems.

Lee Kuan Yew also played a critical role in a groundbreaking project with NEDO, focusing on carbon dioxide capture, storage, and utilization. Here, he developed a CO₂ absorption characteristic measurement device and formulated a mathematical model to analyze the absorption behavior of CO₂ using an amino + ether phase change solution. This work underscored his commitment to tackling global environmental challenges.

🔬 Contributions and Research Focus

Throughout his career, Lee Kuan Yew has made substantial contributions to the field of thermal energy and environmental technology. His research primarily revolves around adsorption heat pumps, absorption technology, and carbon capture. Notably, he has been involved in the development of high-performance adsorbents derived from biomass for carbon capture, merging experimental work with molecular simulations to optimize efficiency.

His research on adsorption heat pumps, including the development of a metal roller anti-stick coating for industrial applications, has showcased his ability to bridge theory with practice. Moreover, his work on fly ash-based zeolite synthesis, funded by the Henan Provincial Department of Science and Technology, demonstrated his dedication to sustainable material development.

Lee Kuan Yew has also authored several academic publications, including a paper on “Superhydrophobic Surface-modified Zeolite to Regulate the Migration of Nonadsorbed Liquid Water in an Open-loop Adsorption Heat Pump,” published in Applied Thermal Engineering. His other work on “Performance Improvement of Waste Heat Upgrading Adsorption Heat Pump by Employing Copper Oxide-Loaded Composite Zeolites for High-Temperature Steam Generation” is currently under review, further highlighting his ongoing commitment to advancing thermal engineering.

🏆 Accolades and Recognition

Lee Kuan Yew’s dedication to excellence has earned him numerous awards and recognitions. In 2021, he was honored as an Excellent Volunteer for Flood Control by the Henan Provincial Civilization Committee, a testament to his sense of responsibility and commitment to community welfare. During the COVID-19 pandemic, he received a Commendation for Fighting the Epidemic from the Communist Youth League of Xinxiang Municipal Committee, recognizing his willingness to serve during challenging times.

His academic excellence has also been acknowledged through scholarships awarded by the Henan Provincial Department of Education (2019-2022) and a Third Prize at the Zhengzhou University Graduate Innovation Competition in 2021. These honors not only reflect his intellectual abilities but also his perseverance and dedication.

🌐 Impact and Influence

Lee Kuan Yew’s work has had a profound impact on the field of thermal energy, particularly in the development of sustainable energy solutions. His research on adsorption heat pumps and carbon capture has the potential to revolutionize energy systems, making them more efficient and environmentally friendly. His active participation in industrial projects with Mitsubishi Electric Corporation and ENEOS has enabled him to bridge the gap between theoretical research and practical applications, creating technologies that can directly benefit society.

Moreover, his academic publications have enriched the scientific community’s understanding of adsorption and absorption processes, providing a foundation for future research in the field. His expertise in computational tools such as Material Studio, CAD, SolidWorks, and Comsol further enhances his ability to drive innovation.

🌟 Legacy and Future Contributions

As a young scholar and engineer with a passion for sustainability, Lee Kuan Yew’s journey is far from over. His continuous pursuit of excellence in research and his ability to translate complex scientific concepts into real-world solutions position him as a promising leader in the field of thermal energy. Moving forward, he aims to explore new frontiers in energy conversion and environmental technology, contributing to a greener, more sustainable world.

📝Notable Publications

Performance Improvement of Waste Heat Upgrading Adsorption Heat Pump by Employing Copper Oxide-Loaded Composite Zeolites for High-Temperature Steam Generation

Authors: G. Li (Guangyao), B. Xue (Bing), H. Yu (Hao), K. Thu (Kyaw), T. Miyazaki (Takahiko)
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
Year: 2025

Mr. HAMISI MSHAMU LIKOKO | Cross-Cultural Leadership | Best Researcher Award

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Mr. HAMISI MSHAMU LIKOKO | Cross-Cultural Leadership | Best Researcher Award

Zhejiang Normal University, China

Author profile 

🌟 Early Academic Pursuits

Hamisi Mshamu Likoko’s journey into academia began with a solid commitment to educational excellence. His early academic pursuits were marked by a deep interest in language, culture, and pedagogy. Driven by the vision of contributing to the advancement of educational practices, he pursued higher education with vigor, eventually securing a place as a PhD student at Zhejiang Normal University. His academic journey reflects a passion for lifelong learning, continuous growth, and a keen focus on bridging educational gaps through research and innovation. 📚✏️

🏛️ Professional Endeavors

Between 2019 and 2023, Hamisi Mshamu Likoko worked at The University of Dodoma, one of Tanzania’s premier institutions. During his four-year tenure, he engaged in diverse roles, including research activities, academic consultations, and participation in curriculum development projects. His work not only enhanced the quality of education offered but also ensured that curricula remained dynamic and culturally relevant. Through hands-on experiences, Hamisi gained deep insights into the challenges and opportunities within higher education, especially in multilingual and multicultural contexts. His professional journey has been shaped by dedication, innovation, and a clear vision for educational transformation. 🏫📝

🔬 Contributions and Research Focus

Hamisi’s research contributions are multifaceted and impactful. His primary areas of focus include Higher Education, Chinese Language Education, and Chinese as a Second Language Acquisition. He is currently involved in four ongoing research projects, reflecting a strong commitment to scholarly inquiry and academic development. His research is published in reputed journals, including SSCI-indexed journals and those covered by ESCI databases.

Moreover, Hamisi has authored two books (ISBN: 978-9987-09-262-8; 978-9987-09-612-1), further demonstrating his ability to contribute significantly to academic literature. His work explores the intersection of language, culture, and education, offering valuable insights into the adaptation of Chinese language instruction in African educational settings. 📖🔍

🏆 Accolades and Recognition

While Hamisi’s formal accolades are still in the early stages of accumulation, the publication of his books and the acceptance of his research in prestigious indexing services such as SSCI and ESCI speak volumes about the quality and relevance of his work. His selection as a PhD candidate at a respected institution like Zhejiang Normal University further underlines his academic prowess and potential for future recognition at international levels. 🏅📜

🌍 Impact and Influence

Hamisi Mshamu Likoko’s influence extends beyond traditional academia. His contributions to curriculum development and higher education consulting have had a tangible impact on the quality of education in Tanzania. By integrating research findings into practical academic frameworks, he has helped shape curricula that are more responsive to the needs of students and society. Additionally, his focus on Chinese Language Education is particularly significant in today’s globalized world, fostering cross-cultural communication and expanding opportunities for learners across Africa. 🌐🤝

✨ Legacy and Future Contributions

As Hamisi continues his doctoral research, his future contributions promise to leave a lasting legacy in the fields of higher education and second language acquisition. With his strong academic foundation, practical experience, and ongoing research projects, he is poised to influence educational policies, teaching methodologies, and cross-cultural learning frameworks.

Looking forward, Hamisi aims to expand his collaborations internationally, contribute more actively to editorial boards, and participate in professional memberships to amplify his voice in the global academic community. His work will not only enrich scholarly literature but also inspire future generations of educators and researchers in Tanzania and beyond. 🚀🎓

Notable publications 

A study on Tanzania foreign language education policies and its impact on the development of Chinese language in Tanzania higher education

Author: Hamisi Mshamu Likoko; Prof. Minxiang Wu
Journal: Sustainable Futures
Year: 2025

A Study on Sustainable Development through Higher Education: The Role of Sino-Tanzania Academic Partnerships in Achieving SDG 4

Author: Hamisi Mshamu Likoko; Wuminxiang
Journal: Preprint (Research Square)
Year: 2025

A Study on Tanzania Foreign Language Education Policies and its Impact on the Development of Chinese Language in Tanzania Higher Education

Author: Hamisi Mshamu Likoko; Minxiang Wu
Journal: SSRN
Year: 2024

Prof Dr. Guangming Yuan | Innovative Leadership | Best Researcher Award

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Prof Dr. Guangming Yuan | Innovative Leadership | Best Researcher Award

Central South University of Forestry and Technology, China

Author Profile

Scopus

Early Academic Pursuits 🎓

Professor Guangming Yuan’s academic journey began with a solid foundation in engineering, which he pursued at Nanjing Forestry University, where he obtained his Bachelor’s degree in Wood-Based Panel in 1983. His dedication to deepening his understanding of materials science led him to continue his education at Central South University of Forestry and Technology, where he earned a Doctor of Engineering degree in 2008. His research in wood science and technology laid the groundwork for a successful career dedicated to innovative material science applications, especially focusing on wood and wood-based composites. This period of education and early training nurtured his passion for research, helping him to develop expertise that he later applied to solving pressing industrial challenges.

Professional Endeavors and Career Development 📚

After completing his doctoral studies, Professor Yuan embarked on a professional career at the College of Materials Science and Engineering, Central South University of Forestry and Technology. He initially worked as a Lecturer/Senior Lecturer at Hunan Forestry School from 1989 to 1999, before moving on to the role of Associate Professor at his current institution in 2000. Over the years, Professor Yuan’s career flourished, culminating in his appointment as a Professor in 2011. His professional journey reflects his unwavering dedication to his field, not only in academia but also in his involvement with industry-oriented research projects aimed at improving the performance of materials like wood and composites. Throughout his tenure, he has played a vital role in fostering collaboration and facilitating knowledge transfer between academia and industry.

Contributions and Research Focus 🔬

Professor Yuan has always been at the forefront of innovations in material science, particularly focusing on wood functional improvement, biomass energy, and materials. His research centers around the application of biomimetic mineralization techniques to enhance the properties of wood and related materials. This research focuses on the development of green composites, fire-resistant materials, and biodegradable products. His groundbreaking work on organo-inorganic hybrid structures, aimed at improving the mechanical and fire-resistant properties of wood through biomineralization, has resulted in notable innovations. Yuan’s contributions to the field have led to multiple patents in areas such as flame-retardant coatings and sol-gel fireproof films, marking a significant impact on both scientific research and practical applications in industries reliant on wood and fiber-based materials.

In addition to these innovative areas, Professor Yuan has led numerous research projects that bridge the gap between materials science and environmental sustainability. His contributions have resulted in several high-impact publications in well-regarded journals, where his work continues to shape the direction of future research in his field.

Accolades and Recognition 🏅

Professor Yuan’s work has been widely recognized by both his peers and the broader scientific community. His research has earned a notable citation index of 684, underscoring the widespread influence of his work in the scientific literature. Yuan’s contributions have also led to his involvement in various high-profile patents, many of which have direct applications in the manufacturing of advanced composite materials, flame-resistant coatings, and bio-based products. These innovations have the potential to revolutionize industries ranging from construction to energy.

His recognition extends beyond publications and patents to his role as a mentor. Yuan has guided numerous graduate students and researchers, helping them develop critical thinking skills and deep expertise in the field of material science. His dedication to nurturing young scholars has made him an invaluable asset to both his institution and the broader academic community.

Impact and Influence 🌍

Professor Yuan’s research has had a profound impact on the scientific community, not only in the field of wood science and technology but also in the development of sustainable materials. His work has contributed to improving the performance of wood-based products, making them more versatile, durable, and environmentally friendly. Through his collaborations with industry partners, he has helped to translate his research findings into practical applications that benefit society.

The innovative nature of Yuan’s work has positioned him as a leader in the field of biomass materials and green composites. His contributions extend beyond technical achievements to his ability to inspire and empower future generations of scientists, researchers, and engineers. Yuan’s dedication to academic excellence, innovation, and sustainability continues to shape the future of materials science.

Legacy and Future Contributions 🌱

As Professor Yuan looks to the future, his work continues to be guided by a strong commitment to advancing the field of materials science through sustainable practices and innovative solutions. His future contributions will likely focus on developing more environmentally friendly materials and enhancing the resilience of wood-based products through novel biomimetic techniques. Yuan’s ongoing research promises to address global challenges such as climate change, resource conservation, and the development of sustainable building materials.

The legacy of his work is marked by both the innovations he has introduced and the generations of scholars he has mentored. As a committed educator and researcher, Professor Yuan has cultivated a lasting influence on his field, and his continued efforts will undoubtedly pave the way for even greater advancements in material science and sustainability.

His passion for pushing the boundaries of knowledge, fostering interdisciplinary collaboration, and driving environmental sustainability ensures that his legacy will continue to inspire and shape the future of research and innovation. Through his dedication, Yuan exemplifies how academic pursuit, innovation, and mentorship can create a lasting impact on both science and society.

Assoc Prof Dr. Chunzhu WEI | Risk Management | Best Researcher Award

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Assoc Prof Dr. Chunzhu WEI | Risk Management | Best Researcher Award

Sun Yat-Sen University, China

Author Profile

Google Scholar

🎓 Early Academic Pursuits

Dr. Chunzhu Wei is a distinguished Chinese geographer whose academic journey reflects a seamless blend of dedication, technical proficiency, and interdisciplinary exploration. His foundation in science began at Northwest University in Xi’an, where he earned his Bachelor of Science in Environmental and Resource Science (2006–2010). During this period, his early curiosity in geoinformatics and spatial data analysis sparked the design of a population evacuation simulation model, laying the groundwork for his future focus on GIS and remote sensing applications in environmental and urban contexts.

He pursued his Master’s degree in Automation from the University of Electronic Science and Technology of China in Chengdu (2010–2013), where he sharpened his skills in data analysis, spatial modeling, and systems engineering. These competencies matured into a deeper academic engagement during his Ph.D. studies in Geoinformatics at the University of Salzburg, Austria (2013–2017). There, he expanded his research on urban and environmental analytics with a global lens, engaging with European and Asian institutions in collaborative international science projects.

🧑‍💼 Professional Endeavors

Currently serving as an Associate Professor at the School of Geography and Planning, Sun Yat-sen University, Guangzhou, Dr. Wei has positioned himself at the forefront of research and teaching in geospatial analytics, urban resilience, and global trade network simulation. His academic home, nestled within one of China’s leading research universities, provides a vibrant environment for interdisciplinary exploration and innovation.

Dr. Wei has helmed and collaborated on a multitude of prestigious projects over the last 15 years. Notably, he leads a major project (2025–2028) on global shipping network resilience under extreme events using AIS data and agent-based modeling, reflecting his expertise in simulating dynamic systems. Another significant project (2021–2023) investigates port-proximate area evolution in the South China Sea Rim across scales—global to local—offering practical insights for economic and environmental planning.

His earlier professional contributions span a range of impactful domains: from urban heat island estimation in international research programs between China and Hungary to coastal risk assessments in Portugal under the Copernicus EMS Risk and Recovery Mapping. These experiences have enriched his technical palette in satellite image processing, vulnerability assessment, and spatial-statistical integration.

🛰️ Contributions and Research Focus

Dr. Wei’s research orbits around several interlinked cores: multi-source satellite imagery, urban and trade network resilience, and geospatial statistical methods. His work merges physical and social dimensions of geography, enabling him to tackle climate stress, urban inequality, and global logistics with scientific rigor and data-driven strategies.

A prolific author, his scholarly contributions include recent publications in high-impact journals:

  • In Resources, Conservation and Recycling (2025), he analyzed post-pandemic grain trade resilience, offering a novel port-centric view of global food security.

  • His work in Marine Pollution Bulletin (2025) highlights increased marine and terrestrial heatwave events in China’s coastal zones—an urgent environmental challenge.

  • Published in Transportation Research Part D (2024), he advanced port cluster resilience assessment using hypergraph and agent-based modeling—a cutting-edge methodological innovation.

  • He has also addressed urban deprivation, land surface temperature, and unplanned settlement mapping using super-resolution GANs, as seen in the International Journal of Digital Earth (2023).

Each study reveals Dr. Wei’s commitment to integrating advanced computation, spatial science, and policy relevance in tackling some of today’s most pressing geographic issues.

🏆 Accolades and Recognition

While specific awards are not detailed in the provided record, Dr. Wei’s sustained leadership in major national and international research programs and his publication record in reputable peer-reviewed journals signify substantial recognition in the academic and professional geospatial communities. His international collaborations—especially across Europe and Asia—demonstrate his esteem and reach within global research networks.

🌍 Impact and Influence

Dr. Wei’s influence resonates through both scholarly and practical domains. His insights on urban morphology, climate risk, and trade system fragility are increasingly relevant as cities grapple with environmental stress, shifting demographics, and geopolitical uncertainties. His work on coastal aquaculture, port accessibility, and urban vulnerability informs sustainable planning and policy adaptation.

Furthermore, his research informs decision-makers, urban planners, and logistics experts on how to design robust, equitable, and climate-resilient infrastructures. By quantifying and modeling the interdependencies within urban and trade systems, he provides tools for managing shocks—natural or socio-economic—in a rapidly changing world.

🔮 Legacy and Future Contributions

Looking ahead, Dr. Wei is poised to play a pivotal role in shaping resilient urban and trade systems through AI-integrated spatial modeling, remote sensing innovations, and cross-scale analytics. His leadership in longitudinal satellite analysis and agent-based simulations positions him as a thought leader in designing adaptive systems for complex, multi-layered geographic phenomena.

With his roots in field-based inquiry and his eyes on satellite-based surveillance of Earth systems, Dr. Wei bridges local concerns with global strategies. His career thus far suggests a future rich in cross-disciplinary breakthroughs, particularly at the intersections of climate science, urban resilience, and technological foresight.

Understanding the effects of 2D/3D urban morphology on land surface temperature based on local climate zones

Authors: L Zhou, B Yuan, F Hu, C Wei, X Dang, D Sun
Journal: Building and Environment
Year: 2022

Measuring urban agglomeration using a city-scale dasymetric population map: A study in the Pearl River Delta, China

Authors: C Wei, H Taubenböck, T Blaschke
Journal: Habitat International
Year: 2017

Assessment of coastal aquaculture for India from Sentinel-1 SAR time series

Authors: KA Prasad, M Ottinger, C Wei, P Leinenkugel
Journal: Remote Sensing
Year: 2019

Relationship between urban landscape structure and land surface temperature: Spatial hierarchy and interaction effects

Authors: L Zhou, F Hu, B Wang, C Wei, D Sun, S Wang
Journal: Sustainable Cities and Society
Year: 2022

Multiscale evaluation of an urban deprivation index: Implications for quality of life and healthcare accessibility planning

Authors: P Cabrera-Barona, C Wei, M Hagenlocher
Journal: Applied Geography
Year: 2016

Prof Jinn P. Chu | Innovative Leadership | Best Researcher Award

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Prof Jinn P. Chu | Innovative Leadership | Best Researcher Award

National Taiwan University of Science and Technology, Taiwan

Author Profile

Orchid 

🎓 Early Academic Pursuits: The Spark of Scientific Excellence

Dr. Jinn P. Chu’s academic journey began with his doctoral studies at one of the world’s most prestigious engineering institutions — the University of Illinois at Urbana-Champaign (UIUC), where he pursued a Ph.D. in Materials Science and Engineering (MSE) from August 1988 to May 1992. This formative period laid the foundation for his lifelong fascination with materials, especially thin-film technologies and metallic glasses. During this time, he honed his expertise in materials behavior, surface modification, and nanostructure fabrication, setting the stage for the exceptional academic and research career that would follow.

🏛️ Professional Endeavors: Climbing the Academic Ladder

After obtaining his doctorate, Dr. Chu returned to Taiwan and began his academic career at the National Taiwan Ocean University in 1993. Over the next 14 years, he rose through the ranks — from Associate Professor to Professor and Chair of the Institute of Materials Engineering. In 2007, he joined the Department of Materials Science and Engineering (MSE) at the National Taiwan University of Science and Technology (Taiwan Tech), marking the beginning of an era defined by leadership and innovation.

His administrative capabilities were quickly recognized: he held multiple leadership roles at Taiwan Tech, including Vice Dean of the College of Engineering, Dean and Vice Dean of the Office of Research and Development, and even served as Vice President from 2018 to 2021. His deep involvement in institutional growth reflects a commitment not just to research, but also to educational and organizational excellence. Since 2022, he has been serving as a Chair Professor — a position that acknowledges both his stature and sustained impact in the field.

🔬 Contributions and Research Focus: The Art of Metallic Glass

Dr. Chu’s work focuses predominantly on thin-film metallic glasses, an area in which he is considered a global pioneer. His research bridges basic materials science and real-world applications, particularly in fields such as energy, healthcare, biosensing, optoelectronics, and nanotechnology.

Among his most impactful works is the development of metallic glass nanotube arrays, which have proven useful in creating highly sensitive biosensors and flexible electronics. His research articles, such as those published in Nature Materials, Materials Today, npj Clean Water, and ACS Applied Materials & Interfaces, demonstrate the range and depth of his scientific explorations — from superelasticity to high-performance separation membranes.

He has also made significant strides in industry-relevant research, acting as Principal Investigator (PI) for collaborations with companies like Foxlink Precision Industry, Dupont Taiwan, and Sino MG Technology. Moreover, his co-leadership in the EU-funded nanoCOOL project highlights his global R&D reach.

🏅 Accolades and Recognition: A Life of Achievement

Dr. Chu’s extensive list of awards is a testament to his academic excellence and innovation. He has repeatedly appeared in the Top 2% Most Influential Scientists rankings by Stanford University (2021–2023), signaling consistent global impact. He has also received the Outstanding Research Award from Taiwan’s Ministry of Science and Technology, the Taipei Tech Distinguished Alumni Award, and the Tong Ho Steel Foundation Award.

In the realm of invention and innovation, Dr. Chu’s contributions have earned him multiple national innovation awards, two silver medals at the Concours Lépine International in Paris, and accolades from the American Chemical Society during Japan’s nano tech event.

His patent portfolio (50 and counting) includes significant breakthroughs such as needle-sharpness preservation technologies and nano-structured medical tools, which further illustrate his ingenuity and practical focusImpact and Influence: Shaping the Global Materials Community

Beyond his personal research, Dr. Chu has been a pillar in the international materials science community. He has served as Vice President and Fellow of the Materials Research Society–Taiwan (MRS-T), Chair of the AVS-Taiwan Chapter, and President of the Taiwan Association for Coatings and Thin Films Technology (TACT).

He also contributes to the academic publishing world as Associate Editor for the AVS Journal of Vacuum Science and Technology, and as a longstanding editorial board member of Thin Solid Films. These roles underscore his influence in shaping the direction of scholarly discourse in materials science.

As a respected reviewer for major national and international funding bodies — including Taiwan’s MOST and Germany’s DFG — Dr. Chu has helped guide the development of research agendas far beyond his own lab.

🌟 Legacy and Future Contributions: A Vision Still Unfolding

With over 230 peer-reviewed publications, 6,500+ citations, and a Google Scholar H-index of 45, Dr. Chu’s academic footprint is as expansive as it is impactful. His work continues to inspire a new generation of materials scientists, particularly in the innovative use of metallic glasses in next-gen technologies.

As a mentor, leader, and visionary, Dr. Jinn P. Chu’s legacy is firmly established. Yet, his recent works, such as the 2025 publications on energy harvesting nanogenerators and icephobic surfaces, suggest that his most transformative contributions may still be ahead. In the intersection of academia, industry, and innovation, he remains a dynamic force propelling materials science into the future. 🧪🌍

📝Notable Publications

Effects of Processing Parameters on the Corrosion Performance of Plasma Electrolytic Oxidation Grown Oxide on Commercially Pure Aluminum

Author(s): Getinet Asrat Mengesha, Jinn Chu, Bih-Show Lou, Jyh-Wei Lee

Journal: Metals
Year: 2020

Ms. Parisasadat Shojaei |Innovative Leadership| Distinguished Scientist Award

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Ms. Parisasadat Shojaei |Innovative Leadership | Distinguished Scientist Award

UOW, Australia

Author Profile

Google Scholar 

Early Academic Pursuits 🎓

Professor Breban embarked on his medical journey at Paris hospitals, earning his Doctor of Medicine (MD) degree between 1984 and 1990. His passion for immunology and rheumatology led him to pursue a Doctorate (PhD), which he completed in 1994 under the auspices of the French National Institute for Medical Research. During this period, he honed his expertise in immuno-rheumatology, laying a solid foundation for his future endeavors.igasconference.com

Professional Endeavors 🏥

Following his PhD, Professor Breban undertook a post-doctoral fellowship at the Harold Simmons Research Center, University of Texas, Dallas, USA, from 1990 to 1993, under the mentorship of Professor Joel D. Taurog. This international experience enriched his research perspective and expertise. Upon returning to France, he served as a clinical fellow and subsequently as Associate Professor of Immunology at Cochin Hospital, Paris, from 1993 to 2002. In 2002, he joined the Rheumatology Division of Ambroise Paré Hospital in Boulogne-Billancourt as a Professor of Rheumatology and ascended to the role of Head of the Department in 2011. Concurrently, he has been directing a research team focused on chronic inflammation in rheumatic disorders, which transitioned from the Cochin Institute to the Faculty of Simone Veil-Santé in 2013.igasconference.com

Contributions and Research Focus 🔬

Professor Breban’s research primarily centers on the immunogenetics of ankylosing spondylitis and related spondyloarthritis. He has been the principal investigator and coordinator for numerous clinical and basic research projects. Over the past two decades, he has contributed to over 100 original papers and 40 review articles in the field of SpA. His work has significantly advanced the understanding of the genetic and environmental factors contributing to SpA, including the role of the microbiome in disease pathogenesis.igasconference.com

Accolades and Recognition 🏆

Throughout his illustrious career, Professor Breban has received several prestigious awards, including the American College of Rheumatology Fellowship Award for Excellence in Scientific Research in 1992 and the Guillaumat-Piel Prize from the Foundation for Medical Research in 2018. These accolades underscore his substantial contributions to rheumatology research and his dedication to advancing medical science.igasconference.com

Impact and Influence 🌍

Professor Breban’s influence extends beyond his research contributions. He has played pivotal roles in various scientific committees and societies, including serving as President of the Scientific Committee of the French Rheumatology Society from 1998 to 2004 and as a member of the Scientific Board of the French National Research Agency from 2012 to 2013. His involvement in these organizations has shaped research agendas and fostered collaborations within the rheumatology community.

Legacy and Future Contributions 🚀

As a dedicated educator, Professor Breban has been imparting knowledge in rheumatology to medical students since 1993 and has been involved in various master’s programs and university diplomas related to immunology and rheumatology. His commitment to teaching ensures the cultivation of future generations of rheumatologists. Looking ahead, Professor Breban continues to lead research initiatives aimed at unraveling the complexities of chronic inflammatory diseases, with the goal of developing innovative therapeutic strategies and improving patient outcomes.

In summary, Professor Maxime Breban’s career is marked by a profound dedication to the study and treatment of rheumatic diseases. His extensive research, leadership roles, and commitment to education have left an indelible mark on the field of rheumatology, promising continued advancements in understanding and managing these complex conditions.

📝Notable Publications

Developing and testing a mobile application for breastfeeding support: the Milky Way application

Authors: S. Meedya, K. Win, H. Yeatman, K. Fahy, K. Walton, L. Burgess, D. McGregor, et al.
Journal: Women and Birth
Year: 2021

Security and Privacy of Technologies in Health Information Systems: A Systematic Literature Review

Authors: P. Shojaei, E. Vlahu-Gjorgievska, Y.W. Chow
Journal: Computers
Year: 2024

Enhancing privacy in mHealth Applications: A User-Centric model identifying key factors influencing Privacy-Related behaviours

Authors: P. Shojaei, E. Vlahu-Gjorgievska, Y.W. Chow
Journal: International Journal of Medical Informatics
Year: 2025

 An Approach to Optimized Imperialist Competitive Algorithm for Task Scheduling in Cloud Computing

Author: P.S. Shojaei
Conference: 5th International Conference on Electrical Engineering and Computer
Year: 2018

 A Hybrid Particle Swarm Optimization for Task Scheduling in Cloud Computing

Authors: P.S. Shojaei, H.R. Naji
Conference: 3rd International Congress on Electrical Engineering, Computer Sciences and Information Technology
Year: 2016

Dr. Jorgelina ALTAMIRANO | Team Building and Team Management | Women Researcher Award

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Dr. Jorgelina ALTAMIRANO | Team Building and Team Management | Women Researcher Award

Profile

Orchid

Early Academic Pursuits 🎓

Born on February 14, 1977, in San Salvador de Jujuy, Argentina, Dr. Jorgelina C. Altamirano showed an early affinity for scientific exploration, particularly in the field of chemistry. Her academic journey began at the Universidad Nacional del Litoral (UNL), where she pursued a Licenciatura in Chemistry between 1995 and 2000. This period was crucial in shaping her analytical mindset and scientific curiosity. She immersed herself in the complexities of chemical reactions, environmental processes, and the vast potential of chemistry in solving real-world problems. With an insatiable thirst for knowledge, she continued her studies at the Universidad Nacional de San Luis (UNSL), where she earned her Ph.D. in Chemistry between 2000 and 2002. Her doctoral research laid the foundation for her future contributions to environmental chemistry, focusing on advanced chemical analysis and applications that would later become instrumental in her professional work. 🌱

Professional Endeavors 🔬

Dr. Altamirano’s professional trajectory reflects her unwavering dedication to the scientific field, particularly in environmental chemistry. She currently serves at the Laboratorio de Química Ambiental within the Instituto Argentino de Nivología, Glaciología y Ciencias Ambientales (IANIGLA), a part of the Centro Científico Tecnológico – Mendoza. This esteemed research institution plays a significant role in studying environmental issues, and Dr. Altamirano’s contributions are crucial to understanding the chemical dynamics of natural ecosystems. Her research focuses on the interactions between chemical compounds and environmental processes, offering insights into pollution control, sustainability, and climate change adaptation. Through her work, she has become a key figure in advancing scientific knowledge in the environmental sector, ensuring that chemistry is at the forefront of sustainable development. 🌍

Contributions and Research Focus 🧪

Dr. Altamirano’s research is deeply rooted in environmental chemistry, with a strong emphasis on the study of glaciers, water quality, and pollution. She examines how chemical pollutants interact with natural ecosystems, particularly in cold environments where glaciers act as reservoirs of historical chemical data. By analyzing the chemical composition of ice and water sources, she contributes valuable knowledge to climate studies, environmental conservation, and public health. Her work extends beyond laboratory analysis—she collaborates with policymakers, environmental organizations, and fellow researchers to develop strategies for mitigating environmental degradation. Her multilingual proficiency in English, Italian, and Portuguese further strengthens her ability to collaborate internationally, ensuring that her research findings reach a global audience. 🌊

Accolades and Recognition 🏅

Over the years, Dr. Altamirano has been recognized for her scientific excellence and commitment to environmental preservation. She has received multiple research scholarships and grants, underscoring the importance of her contributions to the field of chemistry. These accolades are a testament to her perseverance and dedication, reflecting the high regard in which she is held by the scientific community. Her work has been published in respected journals, presented at international conferences, and cited by peers worldwide. Through her achievements, she has established herself as a thought leader in environmental chemistry, influencing both academic research and practical applications in environmental management. 📖

Impact and Influence 🌿

The impact of Dr. Altamirano’s work extends beyond academia. Her research provides critical data that informs environmental policies, helping to shape conservation efforts and pollution control measures in Argentina and beyond. She plays an active role in mentoring young scientists, inspiring the next generation of environmental chemists to continue exploring the intricate relationship between chemistry and the natural world. Her efforts contribute to global discussions on climate change, sustainable resource management, and the role of chemistry in preserving fragile ecosystems. By engaging with interdisciplinary teams, she ensures that her research has a meaningful and lasting impact on society. 💡

Legacy and Future Contributions 🔮

As she continues her journey in environmental chemistry, Dr. Altamirano’s legacy will be defined by her relentless pursuit of scientific excellence and her commitment to environmental sustainability. Her research will serve as a foundation for future studies on pollution, climate change, and natural resource conservation. Moving forward, she is poised to take on even more significant challenges, exploring innovative solutions for mitigating environmental harm and promoting sustainable practices. Whether through groundbreaking research, mentorship, or international collaboration, her contributions will leave a lasting imprint on the scientific community and beyond. The future holds limitless possibilities for Dr. Altamirano, and her work will undoubtedly continue to shape the landscape of environmental chemistry for years to come. 🌟

📝Notable Publications

Chemicals of emerging concern in wastewater treatment plants from Mendoza: Environmental study in a semiarid region of Argentina

Authors: Kathryn Proctor, Jorgelina Altamirano, Barbara Kasprzyk-Hordern

Journal: Journal of Hazardous Materials Advances

Year: 2025

Source identification and human exposure assessment of organophosphate flame retardants and plasticisers in soil and outdoor dust from Nigerian e-waste dismantling and dumpsites

Authors: Bilikis T. Folarin, Giulia Poma, Shanshan Yin, Jorgelina C. Altamirano, Paulien Cleys, Temilola Oluseyi, Adrian Covaci

Journal: Environmental Pollution

Year: 2024

Exploring the hidden chemical landscape: Non-target and suspect screening analysis for investigating solid waste-associated environments

Authors: Jorgelina Cecilia Altamirano, Shanshan Yin, Lidia Belova, Giulia Poma, Adrian Covaci

Journal: Environmental Research

Year: 2024

Assessment of legacy and alternative halogenated organic pollutants in outdoor dust and soil from e-waste sites in Nigeria: Concentrations, patterns, and implications for human exposure

Authors: Bilikis T. Folarin, Giulia Poma, Shanshan Yin, Jorgelina C. Altamirano, Temilola Oluseyi, Gbolahan Badru, Adrian Covaci

Journal: Environmental Pollution

Year: 2024

Organic matter degradation determines the concentrations of polybrominated diphenyl ethers in sediments. Multivariate learning on environmental and experimental models

Authors: Emilia C. Abraham, José A. D’Angelo, Daniela A. Ramírez, Alejandra B. Camargo, Jorgelina C. Altamirano

Journal: Science of The Total Environment

Year: 2023

Prof. Luis Fernando Coca | Visionary Leadership | Best Researcher Award

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Prof. Luis Fernando Coca | Visionary Leadership | Best Researcher Award

Universidad del Rosario, Colombia

Profile

Google Scholar

Early Academic Pursuits 🎓

Luis Fernando Coca’s journey into the world of natural sciences began with a deep-rooted passion for the environment and biodiversity. Growing up in Colombia, a country renowned for its immense ecological wealth yet deeply affected by decades of conflict and environmental degradation, he developed an intrinsic curiosity about the intricate relationships between plants, fungi, and their ecosystems. This curiosity led him to pursue a degree in Agricultural Engineering, where he built a strong foundation in biological sciences, plant physiology, and ecosystem interactions. As he delved deeper into the study of flora and cryptogams, he found himself captivated by the unseen world of fungi—organisms that play a crucial role in ecological balance but often remain in the shadows of scientific research.

His academic ambitions took him further as he pursued a Master’s in Biological Sciences, allowing him to specialize in taxonomy, ecology, and the evolution of plants and fungi. During this period, he was introduced to the incredible diversity of symbiotic fungi in the Neotropics, particularly within the Andean páramos. His master’s research laid the groundwork for what would become a lifelong commitment to understanding, documenting, and conserving these vital organisms. His academic excellence, combined with his ability to bridge traditional knowledge with modern science, set him apart as a dedicated researcher eager to uncover the mysteries of the natural world.

Professional Endeavors 🌿

As a professional, Luis Fernando Coca has seamlessly blended his expertise in taxonomy, conservation, and ecological research. His fieldwork has taken him to some of Colombia’s most remote and biodiverse landscapes, where he has conducted extensive studies on symbiotic fungi and their role in ecosystem dynamics. His leadership in research projects has led to the discovery and classification of new fungal species, expanding scientific understanding of the Andean páramos, cloud forests, and other Neotropical ecosystems.

Beyond research, Luis has taken on a vital role as a curator of cryptogamic collections. In this capacity, he has meticulously worked on the preservation of critical specimens, ensuring that future generations of scientists can continue to explore the biodiversity of fungi and plants. His curatorial work has also supported conservation efforts by providing essential data for ecological restoration projects and policy-making initiatives aimed at protecting fragile ecosystems.

Additionally, he has actively engaged with local and international researchers, fostering collaborations that enhance the visibility and impact of cryptogamic studies. His efforts in establishing partnerships between scientific institutions, conservation organizations, and indigenous communities have reinforced the importance of integrating traditional ecological knowledge with contemporary scientific methodologies.

Contributions and Research Focus 🌍

Luis Fernando Coca’s research primarily revolves around the biodiversity, phylogenetics, and ecological interactions of cryptogams—plants and fungi that play essential roles in ecosystem stability. His focus on the Andean páramos has been particularly significant, given the region’s importance as a water source and its vulnerability to climate change. By studying the functional traits of fungi and their symbiotic relationships with plants, he has contributed to a broader understanding of how these organisms adapt to environmental changes.

His work extends beyond academic research, as he strives to make biodiversity knowledge accessible to broader audiences. Through workshops, lectures, and publications, he educates both scientists and non-specialists about the importance of fungi in ecological resilience and conservation. His studies have highlighted how cryptogams can serve as bioindicators, providing valuable insights into environmental health and climate change impacts.

Accolades and Recognition 🏆

Luis’s dedication to the study of biodiversity has earned him numerous accolades in the fields of botany, mycology, and conservation. His research contributions have been published in esteemed scientific journals, and his discoveries have been widely acknowledged in the academic community. He has been invited to present his findings at international conferences, where he shares his expertise on Neotropical ecosystems and the conservation of fungi.

Beyond the academic sphere, his efforts in biodiversity communication have been recognized for their impact on public engagement. His nature photography, which beautifully captures the often-overlooked world of fungi and plants, has been showcased in exhibitions and educational campaigns aimed at fostering a deeper appreciation for nature among urban communities. His commitment to science outreach has positioned him as an influential voice in the intersection of conservation, education, and visual storytelling.

Impact and Influence 🌱

One of Luis Fernando Coca’s most profound contributions is his ability to bridge scientific research with community-driven conservation efforts. Recognizing that local communities are the stewards of biodiversity, he has worked closely with indigenous and rural populations to document traditional ecological knowledge, ensuring that their perspectives are integrated into conservation strategies. His indigenous heritage has provided him with a unique lens through which he approaches environmental preservation, fostering a harmonious relationship between scientific inquiry and cultural wisdom.

His work has had a tangible impact on environmental policies, conservation initiatives, and public awareness campaigns. By emphasizing the ecological and cultural significance of fungi and cryptogams, he has helped reshape how these organisms are perceived in conservation discourse. His advocacy for their protection has influenced decision-makers and contributed to the development of strategies aimed at safeguarding Colombia’s rich biodiversity.

Legacy and Future Contributions 🌟

As Luis Fernando Coca continues his doctoral research at Universidad del Rosario, his aspirations remain firmly rooted in advancing scientific knowledge and conservation practices. He envisions a future where fungi and cryptogams receive the recognition they deserve, not only in academic circles but also in global conservation efforts. His research on symbiotic relationships and adaptation mechanisms will contribute to broader discussions on climate resilience and ecological sustainability.

Through his ongoing engagement with communities, educational initiatives, and international collaborations, he aims to inspire a new generation of scientists, conservationists, and nature enthusiasts. His work stands as a testament to the power of integrating science, culture, and storytelling to protect the world’s natural heritage. By combining rigorous research with passionate advocacy, Luis continues to make a lasting impact, ensuring that the hidden wonders of the natural world are studied, cherished, and preserved for generations to come.

📝Notable Publications

“Fungal diversity notes 111–252—taxonomic and phylogenetic contributions to fungal taxa”

Authors: HA Ariyawansa, KD Hyde, SC Jayasiri, B Buyck, KWT Chethana, DQ Dai, …
Journal: Fungal Diversity
Year: 2015

“A single macrolichen constitutes hundreds of unrecognized species”

Authors: R Lücking, M Dal-Forno, M Sikaroodi, PM Gillevet, F Bungartz, …
Journal: Proceedings of the National Academy of Sciences
Year: 2014

“Turbo-taxonomy to assemble a megadiverse lichen genus: seventy new species of Cora (Basidiomycota: Agaricales: Hygrophoraceae), honouring David Leslie”

Authors: R Lücking, MD Forno, B Moncada, LF Coca, LY Vargas-Mendoza, …
Journal: Fungal Diversity
Year: 2017

“Neotropical members of Sticta (lichenized Ascomycota: Lobariaceae) forming photosymbiodemes, with the description of seven new species”

Authors: B Moncada, LF Coca, R Lücking
Journal: The Bryologist
Year: 2013

Prof. Luis Fernando Coca | Visionary Leadership | Best Researcher Award

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Prof. Luis Fernando Coca | Visionary Leadership | Best Researcher Award

Universidad del Rosario, Colombia

Profile

Google Scholar

Early Academic Pursuits 📚

Dr. Coca’s academic journey began with a degree in Agricultural Engineering, followed by a Master’s in Biological Sciences. His early fascination with the natural world, especially the intricate relationships within ecosystems, steered him toward specializing in the taxonomy and ecology of plants and fungi. This foundational education equipped him with the skills necessary to explore and document the diverse symbiotic relationships present in Colombia’s unique habitats.

Professional Endeavors 🧑‍🔬

Throughout his career, Dr. Coca has been affiliated with several esteemed institutions. Notably, he has served as a curator at the Herbario Universidad de Caldas (FAUC) in Manizales, Colombia, from 2015 to 2021, where he was instrumental in conserving and studying cryptogamic collections. His role extended to the Jardín Botánico de Bogotá José Celestino Mutis, contributing to the institution’s scientific endeavors. Additionally, Dr. Coca has collaborated with international organizations, including The Field Museum in Chicago, USA, reflecting his commitment to global scientific partnerships.

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researchgate.net

Contributions and Research Focus 🌿🔬

Dr. Coca’s research primarily centers on the biodiversity of symbiotic fungi in Neotropical ecosystems, with a particular emphasis on the Andean páramos. His work has led to the discovery and description of numerous new species across various taxonomic groups. For instance, he co-authored a study revealing that what was once considered a single macrolichen species, Dictyonema glabratum, actually comprises at least 126 distinct species. This groundbreaking research has profound implications for understanding fungal diversity and evolution.

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In another significant study, Dr. Coca contributed to the description of seventy new species of the lichen genus Cora, utilizing a “turbo-taxonomy” approach. This extensive taxonomic effort not only expanded the known diversity of the genus but also honored the seventieth birthday of renowned mycologist David Leslie Hawksworth.

scholar.google.com

Dr. Coca’s research also delves into the evolutionary dynamics and symbiotic interactions of lichenized fungi in the Andean páramos, investigating genetic differentiation, symbiont specificity, and environmental adaptation. His work on the eco-physiology of culturally significant plants, such as Carludovica palmata (Iraca), has provided insights into their responses to environmental stressors and climate variability.

Accolades and Recognition 🏆

Dr. Coca’s scholarly contributions have garnered significant recognition within the scientific community. His publications have been widely cited, reflecting the impact of his research on the broader scientific discourse. Collaborations with esteemed researchers and institutions worldwide underscore his reputation as a leading expert in his field.

Impact and Influence 🌍

Beyond his research, Dr. Coca is a passionate biodiversity communicator and nature photographer. He endeavors to bring the majesty of nature into urban spaces, raising awareness among local communities about the rich natural heritage surrounding them. Through photography and outreach, he strives to reconnect people with their ecosystems, fostering a sense of pride and conservation awareness. His indigenous heritage further enriches his connection to traditional knowledge and the land, reinforcing his commitment to working with local communities to preserve biodiversity.

Legacy and Future Contributions 🌱

Dr. Coca’s leadership has been pivotal in documenting, conserving, and promoting the biodiversity of Colombia. His efforts ensure that these ecosystems and their cultural significance are recognized and protected for future generations. As he continues his work, Dr. Coca remains dedicated to advancing scientific understanding and fostering a harmonious relationship between humans and nature, ensuring the preservation of Colombia’s rich ecological and cultural heritage.

📝Notable Publications

“Fungal diversity notes 111–252—taxonomic and phylogenetic contributions to fungal taxa”

Authors: Hiran A. Ariyawansa, Kevin D. Hyde, Subashini C. Jayasiri, Bart Buyck, K. W. Thilini Chethana, Dong Qin Dai, and others.

Journal: Fungal Diversity

Year: 2015

“A single macrolichen constitutes hundreds of unrecognized species”

Authors: Robert Lücking, Manuela Dal-Forno, Mehrdad Sikaroodi, Paul M. Gillevet, Frank Bungartz, Bibiana Moncada, and others.

Journal: Proceedings of the National Academy of Sciences

Year: 2014

“Turbo-taxonomy to assemble a megadiverse lichen genus: seventy new species of Cora (Basidiomycota: Agaricales: Hygrophoraceae), honouring David Leslie Hawksworth’s seventieth birthday”

Authors: Robert Lücking, Manuela Dal-Forno, Bibiana Moncada, Luis F. Coca, Leidy Y. Vargas-Mendoza, and others.

Journal: Fungal Diversity

Year: 2017

“Neotropical members of Sticta (lichenized Ascomycota: Lobariaceae) forming photosymbiodemes, with the description of seven new species”

Authors: Bibiana Moncada, Luis F. Coca, Robert Lücking

Journal: The Bryologist

Year: 2013

“Pseudocyphellaria crocata (Ascomycota: Lobariaceae) in the Americas is revealed to be thirteen species, and none of them is P. crocata”

Authors: Robert Lücking, Bibiana Moncada, Bruce McCune, Edit Farkas, Bernard Goffinet, and others.

Journal: The Bryologist

Year: 2017