Prof. Liuyang song – Condition Based Maintenance – Best Researcher Award

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Prof. Liuyang song - Condition Based Maintenance - Best Researcher Award

Beijing University of Chemical Technology - China 

Author Profile 

SCOPUS 

ORCID 

Early academic pursuits 📖

Liuyang song embarked on his academic journey with a strong foundation in engineering at beijing university of chemical technology. he earned his bachelor’s degree in engineering in 2010, followed by a master’s degree in 2013, both from the same institution. his passion for mechanical and electrical engineering led him to pursue a doctorate at mie university, japan, where he completed his doctoral studies in 2017. during his phd, he delved deep into advanced mechanical systems, honing his expertise in fault diagnosis and intelligent machine learning applications.

Professional endeavors 🏛️

Liuyang song has built a distinguished career in academia, holding key positions at beijing university of chemical technology. he started as a postdoctoral researcher in 2018, gradually rising through the ranks to become a lecturer, associate professor, and ultimately, a full professor in 2024. he also gained international experience as a postdoctoral researcher and temporary researcher at mie university, japan. his extensive experience in mechanical and electrical engineering has contributed to the development of cutting-edge diagnostic techniques and performance evaluation methodologies.

Contributions and research focus 🔬

Liuyang song's research primarily focuses on intelligent fault diagnosis, machine learning applications in engineering, and vibro-acoustic signal processing. he has been at the forefront of developing innovative algorithms for aeroengine spindle bearing diagnostics using multi-task neural networks and graph-structured data. his work also explores adaptive sparse Condition Based Maintenance representation methods for vibro-acoustic multi-source signal separation, lightweight convolutional neural networks, and small-sample machine learning for rail transit train equipment diagnostics. his research has significantly improved the accuracy and efficiency of fault detection in complex mechanical systems.

Accolades and recognition 🏅

Throughout his career, liuyang song has been recognized for his outstanding contributions to mechanical and electrical engineering. his research has been supported by prestigious funding Condition Based Maintenance bodies such as the national natural science foundation of china and the beijing natural science foundation. he has successfully led multiple research projects that have advanced the field of intelligent diagnostics. his contributions to academia have solidified his reputation as a leading researcher in his domain.

Impact and influence 🌍

Liuyang song's research has had a significant impact on industrial applications, particularly in aerospace and rail transit systems. his advanced diagnostic methodologies have enhanced the Condition Based Maintenance reliability and performance of critical mechanical components, reducing operational failures and maintenance costs. his work in machine learning-driven fault diagnosis has influenced both academic and industrial research, paving the way for more intelligent and efficient monitoring systems in engineering applications.

Legacy and future contributions 🔮

With a commitment to advancing mechanical and electrical engineering, liuyang song continues to push the boundaries of research in fault diagnostics and intelligent systems. his future work aims to integrate cutting-edge artificial intelligence techniques with mechanical diagnostics to further improve the precision and adaptability of predictive maintenance strategies. as a professor, he is dedicated to mentoring the next generation of engineers and researchers, ensuring that his legacy in intelligent fault diagnosis and machine learning applications continues to thrive.

Notable Publications 

  • Task-adaptive unbiased regularization meta-learning for few-shot cross-domain fault diagnosis
    Authors: Huaqing Wang, Dongrui Lv, Tianjiao Lin, Changkun Han, Liuyang Song
    Journal: Engineering Applications of Artificial Intelligence
  • Representations aligned counterfactual domain learning for open-set fault diagnosis under speed transient conditions
    Authors: Shen Liu, Jinglong Chen, Zhen Shi, Liuyang Song, Shuilong He
    Journal: Knowledge-Based Systems
  • A bearing fault diagnosis method with an improved residual Unet diffusion model under extreme data imbalance
    Authors: Wang H., Zhang W., Han C., Fu Z., Song L.
    Journal: Measurement Science and Technology
  • A Convolutional Neural Network with Hybrid Loss Function for Bearing Fault Diagnosis
    Authors: Lv D., Fu Z., Su Z., Ni H., Wang H., Song L.
    Journal: Mechanisms and Machine Science
  • A lightweight improved residual neural network for bearing fault diagnosis
    Authors: Wang H., Fu Z., Lin T., Han C., Zhang W., Song L.
    Journal: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science

Mr. Ning Wang – Molecule Dynamics – Best Researcher Award

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Mr. Ning Wang - Molecule Dynamics - Best Researcher Award

Peking University - China

Author Profile 

SCOPUS

📚 Early academic pursuits

Ning Wang's journey into the realm of materials science began with a strong foundation in engineering at Northeastern University, where he pursued a Bachelor's degree in Materials Science and Engineering. His exceptional academic performance earned him the National Scholarship (Top 1%) and the First-Class University Scholarship in 2020, highlighting his dedication and intellect. His passion for research flourished as he explored the intersection of materials science and computational modeling, setting the stage for his future contributions.

🏛️ Professional endeavors

Continuing his academic journey, Ning Wang pursued a Master’s degree in Materials Physics and Chemistry at Peking University, Shenzhen Graduate School. His exposure to advanced material research expanded when he joined the Matter Lab at the University of Toronto in 2024, where he worked under the esteemed Prof. Alan Aspuru-Guzik. His research focused on AI-driven approaches to materials discovery, further strengthening his expertise in computational materials science.

🔍 Contributions and research focus

At the core of Ning Wang’s work lies his innovative use of AI and computational methods in materials science. His research spans multiple domains, from atomic interactions to molecular Molecule Dynamics orbital learning, leveraging machine learning and deep learning architectures. His GDGen methodology, a gradient descent-based approach for optimized cluster configurations, showcases his ability to develop novel computational tools for materials simulations. His work on transformer models with DeepPot encoders further emphasizes his contributions to predictive modeling in molecular dynamics.

🏆 Accolades and recognition

Ning Wang's commitment to research is reflected in his impressive publication record. His work has been accepted at international conferences and prestigious journals, including Computer Molecule Dynamics Physics Communications, the Journal of Alloys and Compounds, and the International Conference on Electronic Information Engineering and Computer Science. His cutting-edge research on micro-structures, solid solubility, and tensile properties of alloys has garnered significant recognition, demonstrating his expertise in both experimental and computational materials science.

🌍 Impact and influence

By integrating AI-driven methodologies with materials science, Ning Wang is helping to shape the future of computational materials engineering. His work has the potential to revolutionize Molecule Dynamics how researchers design and optimize materials at the atomic scale, making processes more efficient and accurate. His research on Ag single crystal growth using machine learning-enhanced molecular dynamics is a prime example of how AI can enhance traditional materials research.

🚀 Legacy and future contributions

As AI continues to reshape the scientific landscape, Ning Wang envisions a future where machine learning algorithms play a central role in materials discovery. His ongoing research on Egsmole, an equivariant graph state transformer for molecular orbital learning, is set to push the boundaries of computational chemistry. With a solid academic background, pioneering research, and a vision for the future, Ning Wang is poised to make groundbreaking contributions to AI-driven materials science.

Prof. Ma Guangyi – mechanical engineering – Best Researcher Award

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Prof. Ma Guangyi - mechanical engineering - Best Researcher Award

dalian university of technology - China 

Author Profile 

SCOPUS 

ORCID 

Early academic pursuits 🎓

Ma Guangyi embarked on his academic journey with a strong passion for mechanical engineering and advanced manufacturing technologies. his early education laid a solid foundation in engineering principles, leading him to pursue higher studies in the field. with an exceptional academic record, he advanced his expertise through rigorous research and innovation, eventually earning a doctoral degree. his dedication to academic excellence and scientific inquiry set the stage for his future contributions to additive manufacturing and nanomanufacturing.

Professional endeavors 🏛️

Throughout his career, ma guangyi has held esteemed positions in academia and industry, shaping the future of mechanical engineering and advanced manufacturing. as a professor and doctoral supervisor, he has mentored numerous researchers, fostering the next generation of scientists and engineers. his role as vice chairman of the additive manufacturing branch of the liaoning mechanical engineering society reflects his leadership in the field. additionally, his membership in national and international technical committees highlights his influence in standardizing and advancing additive and remanufacturing engineering practices.

Contributions and research focus 🔍

Ma Guangyi’s research is centered on additive manufacturing, remanufacturing engineering, and laser processing technologies. his work integrates cutting-edge nanomanufacturing mechanical engineering techniques to enhance material performance and production efficiency. as a key contributor to the development of advanced coatings and rare metal materials, his research bridges the gap between theoretical advancements and practical applications. by pushing the boundaries of laser processing and manufacturing innovations, he has significantly impacted industrial and scientific communities.

Accolades and recognition 🏆

Ma Guangyi’s contributions have earned him widespread recognition and prestigious accolades. he has been selected into the world’s top 2% scientists list for both 2023 and 2024, an mechanical engineering acknowledgment of his outstanding impact on global research. he has received numerous awards, including one gold medal at an invention exhibition, multiple first and second prizes in provincial and ministerial science and technology awards, and significant honors in natural science paper competitions. his editorial roles in leading journals such as "coatings" and "nanomanufacturing and metrology" further underscore his expertise and influence in the field.

Impact and influence 🌍

Ma Guangyi’s research has had a profound impact on the advancement of additive manufacturing and laser processing technologies. his work has contributed to the development of high- performance materials, efficient manufacturing processes, and sustainable engineering solutions. as a member of key scientific committees, he plays a vital role in shaping industry standards mechanical engineering and promoting technological innovations. his efforts in mentoring young researchers and collaborating with global experts have amplified his influence, fostering a new wave of scientific breakthroughs.

Legacy and future contributions 🚀

Ma Guangyi’s legacy is built on his unwavering commitment to scientific excellence and technological innovation. his pioneering work in additive manufacturing and remanufacturing engineering continues to inspire researchers worldwide. as he advances his research, his focus remains on bridging theoretical knowledge with practical applications, ensuring sustainable and efficient manufacturing solutions for future generations. his leadership in academia and industry solidifies his role as a key figure in the evolution of mechanical engineering and nanomanufacturing.

Notable Publications 

  1. Title: Direct additive manufacturing of melt growth Al₂O₃-ZrO₂ functionally graded ceramics by laser directed energy deposition
    Authors: Wu, D.; Shi, J.; Niu, F.; Ma, G.; Zhou, C.; Zhang, B.
    Journal: Journal of the European Ceramic Society
  2. Title: Effect of low-temperature cooling on corrosion properties of laser welding Hastelloy C-276/304 stainless steel with filler wire
    Authors: Cheng, B.; Wu, D.; Yue, K.; Ma, G.; Niu, F.
    Journal: Optics and Laser Technology
  3. Title: Effect of weaving frequency on pulsed laser weaving welding of thin 5052 aluminum alloy sheet
    Authors: Niu, F.; Tang, B.; Yue, K.; Liu, D.; Ma, G.; Wu, D.
    Journal: International Journal of Advanced Manufacturing Technology
  4. Title: Formation mechanism of Al-Zn-Mg-Cu alloy fabricated by laser-arc hybrid additive manufacturing: Microstructure evaluation and mechanical properties
    Authors: Liu, D.; Wu, D.; Wang, R.; Shi, J.; Niu, F.; Ma, G.
    Journal: Additive Manufacturing
  5. Title: Intermetallic regulation mechanism of inconel 718/Ti6Al4V composite by novel follow-up ultrasonic assisted laser additive manufacturing
    Authors: Wu, D.; Song, C.; Di, T.; Niu, F.; Ma, G.
    Journal: Composites Part B: Engineering

Ms. Paly Nsonwi Titenwi  – Forest Ecology – Young Scientist Award

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Ms. Paly Nsonwi Titenwi  - Forest Ecology - Young Scientist Award

The University of Bamenda - Cameroon

Author Profile 

ORCID 

SCOPUS 

🌱 Early academic pursuits

Paly Nsonwi Titenwi embarked on his academic journey with a deep-rooted passion for plant sciences. he pursued a bachelor's and master's degree in applied botany at the university of bamenda, where he honed his expertise in understanding plant diversity. his master’s research laid the foundation for his specialization in woody plant diversity, particularly in the context of climate change and sustainable forest management. currently, as a final-year ph.d. student at the same university, he continues to explore the intricate relationship between biodiversity and environmental sustainability in central and west african tropical rainforests.

🌍 Professional endeavors

His professional journey has been marked by active participation in biodiversity conservation and ecological research. in 2018, he gained practical experience in tree planting with the mendel foundation in bamenda. from 2022 to 2023, he worked with the west african biodiversity and low emission development initiative at the reptiles and amphibians program in sierra leone, where he contributed to forest monitoring using permanent sample plots. his fieldwork experience extends across multiple west african countries, strengthening his expertise in tree diversity assessments and carbon stock evaluation.

🌳 Contributions and research focus

Paly’s research is centered on the sustainable management of tropical rainforests, with a particular focus on woody plant diversity in response to climate change. his work involves extensive field surveys and data collection to assess the ecological health of forests. he has been actively involved in two major research projects, contributing valuable insights into biodiversity Forest Ecology conservation. in 2024, he expanded his research to include seed multiplication and integrated poultry farming techniques at the agriculture and fisheries practicing school (epahm) in monde-buea, reflecting his commitment to sustainable agricultural practices.

🏆 Accolades and recognition

His dedication to environmental conservation and plant science research has earned him recognition within the academic and ecological research communities. his contribution to Forest Ecology international research initiatives, particularly in biodiversity monitoring, has positioned him as a promising scientist in the field. his work in forest conservation across west africa has been instrumental in advancing sustainable forestry practices and climate resilience strategies.

🌿 Impact and influence

Through his research and collaborations, paly has contributed to improving forest monitoring techniques and biodiversity assessments in west africa. his field expertise in permanent sample plots has enhanced the accuracy of ecological data, aiding conservationists and policymakers in making informed decisions. his work with regional conservation programs has helped foster Forest Ecology awareness about sustainable forest management, inspiring young researchers to engage in ecological research.

📚 Legacy and future contributions

As he moves forward in his academic and professional career, paly aims to expand his research on climate change adaptation strategies for tropical forests. he is committed to bridging the gap between scientific research and practical conservation efforts. his long-term vision includes developing innovative reforestation techniques and contributing to policy frameworks that promote sustainable forest management. with a strong foundation in botany and environmental science, he is poised to leave a lasting impact on biodiversity conservation in africa.

Notable Publications 

Title: Carbon recovery in secondary forests: Insights from three West African countries
Authors: Titenwi, P.N.; Sainge, M.N.; Kargbo, U.; Kamara, R.A.S.; Musa, A.; Kabba, T.M.; Buanie, B.K.; Njouonkou, A.L.; Aruna, E.; Sullivan, M.J.P. et al.
Journal: Forest Ecology and Management

Dr. Seokjoo Lee – Transplantation Immunology – Best Researcher Award

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Dr. Seokjoo Lee - Transplantation Immunology - Best Researcher Award

Schepens Eye Research Institute of Massachusetts Eye and Ear Department of Ophthalmology, Harvard Medical School-United States

AUTHOR PROFILE 

GOOGLE SCHOLAR 

EARLY ACADEMIC PURSUITS 📚

Seokjoo Lee began his academic journey in 2009 at the University of Toronto, Canada, where he pursued a double major in human biology and molecular biology, earning a Bachelor of Science (B.Sc.) degree in 2013. During this time, he developed a deep interest in the molecular mechanisms that underpin biological systems, especially focusing on immune biology. Lee's commitment to his studies and research led him to Seoul National University, where he advanced his expertise in the field of biomedical science and immunology.

PROFESSIONAL ENDEAVORS 🧑‍🔬

After completing his undergraduate studies, Seokjoo Lee went on to pursue a Ph.D. in biological sciences at Seoul National University from March 2017 to August 2020. Under the mentorship of Professor Chung-Kyu Park, Lee focused on transplantation immunology, specifically studying the role of FoxP3+ regulatory T cells in immune tolerance during allo- and xenogeneic islet transplantation. This research laid the foundation for his current work at Harvard Medical School, where he is currently undergoing postdoctoral fellowship training at the Schepens Eye Research Institute and Massachusetts Eye & Ear. His work there explores the immune mechanisms of corneal transplantation and immune tolerance, with a focus on the interaction between FoxP3+ T cells and other regulatory immune cells.

CONTRIBUTIONS AND RESEARCH FOCUS 🔬

Seokjoo Lee’s research primarily revolves around the immune system’s response to transplantation, particularly focusing on how FoxP3+ regulatory T cells mediate immune tolerance. His doctoral research demonstrated that donor-specific FoxP3+ T cells could induce tolerance in murine models of allogeneic islet transplantation by short-term blockade of the CD40-CD154 Transplantation Immunology pathway. This innovative research has contributed to the understanding of how immune tolerance can be achieved without the need for chronic immunosuppression, which could have profound implications for the future of organ transplantation and treatment of autoimmune diseases.

ACCELERATING IMMUNOLOGICAL ADVANCES 🧬

Lee’s academic work and contributions to transplantation immunology have been recognized by his peers and the broader scientific community. His research earned him the Top Five Transplantation Immunology Abstracts award at the 2024 ARVO conference in Seattle, USA, a prestigious honor reflecting the quality and relevance of his research in the field. Other accolades include multiple awards for academic excellence during his studies at Seoul National University, such as the Top Prize in the 2019 Research Competition and the completion of his military service as a technical research personnel.

IMPACT AND INFLUENCE 🌍

The work of Seokjoo Lee has the potential to make significant advancements in both the field of transplantation and immunology. His focus on regulatory T cells and immune tolerance may Transplantation Immunology open new therapeutic avenues that can improve the success rates of organ transplants while minimizing the need for lifelong immunosuppressive drugs. Lee’s research is contributing to the development of more effective treatments for conditions like autoimmune diseases, organ rejection, and the broader implications of immune system modulation.

LEGACY AND FUTURE CONTRIBUTIONS 🔮

Looking ahead, Seokjoo Lee’s contributions to immune tolerance and transplantation immunology are poised to shape the future of the field. As he continues his postdoctoral work at Harvard Medical School, his innovative research is setting the stage for breakthroughs that could redefine how we approach organ transplantation, immune therapies, and possibly even the treatment of chronic inflammatory diseases. Lee’s dedication to improving patient outcomes through scientific discovery and clinical applications will undoubtedly leave a lasting legacy in the field of biomedical science.

NOTABLE PUBLICATIONS 

  1. Title: Immunology in corneal transplantation—From homeostasis to graft rejection
    Authors: S Lee, TH Dohlman, R Dana
    Journal: Transplantation Reviews, 100909
    Year: 2025
  2. Title: Antagonizing NK-1R modulates pain perception following corneal injury
    Authors: PL Surico, A Naderi, RB Singh, F Kahale, Y Farsi, S Lee, A Musayeva, ...
    Journal: Experimental Eye Research, 110230
    Year: 2025
  3. Title: Assessment of Corneal Graft Outcomes in a Murine Model of Endothelial Keratoplasty
    Authors: A Narimatsu, RB Singh, PL Surico, S Lee, K Forouzanfar, F Kahale, ...
    Journal: Journal of Clinical Medicine 13 (17), 5010
    Year: 2024
  4. Title: Neuropeptide alpha-Melanocyte stimulating hormone preserves corneal endothelial morphology in a murine model of Fuchs dystrophy
    Authors: F Kahale, H Alemi, A Naderi, N Deshpande, S Lee, S Wang, RB Singh, ...
    Journal: Scientific Reports 14 (1), 18842
    Year: 2024
  5. Title: Contact lenses as novel tear fluid sampling vehicles for total RNA isolation, precipitation, and amplification
    Authors: N Boychev, S Lee, V Yeung, AE Ross, L Kuang, L Chen, R Dana, ...
    Journal: Scientific Reports 14 (1), 11727
    Year: 2024

Assoc. Prof. Dr Atsushi Hinenoya – Molecular epidemiology of pathogenic bacteria – Best Researcher Award

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Assoc. Prof. Dr Atsushi Hinenoya - Molecular epidemiology of pathogenic bacteria - Best Researcher Award

Osaka Metropolitan University - Japan

Author Profile 

SCOPUS 

🌱 Early academic pursuits

Atsushi Hinenoya embarked on his academic journey with a deep passion for veterinary science and microbiology. he earned his ph.d. in 2009 from the department of veterinary science at the graduate school of life and environmental sciences, osaka prefectural university, japan. during this time, he delved into complex microbial research, laying the foundation for his career as an esteemed microbiologist and academic leader.

🏫 Professional endeavors

Dr. Hinenoya’s professional career began in 2009 as an assistant professor at osaka prefectural university, where he dedicated nearly a decade to teaching and research. his commitment and expertise earned him a promotion to associate professor in 2017. between 2017 and 2019, he expanded his international experience as a visiting scholar at the department of animal science, university of tennessee, usa. in 2022, he joined osaka metropolitan university as an associate professor in the department of veterinary science, where he continues to contribute to advancing veterinary microbiology.

🔬 Contributions and research focus

Throughout his career, dr. hinenoya has focused on understanding zoonotic pathogens, specifically escherichia coli and escherichia albertii. his completed research projects have addressed Molecular epidemiology of pathogenic bacteria molecular epidemiology, colistin resistance, and horizontal gene transfer in e. coli. currently, his ongoing studies aim to develop novel detection methods, analyze virulence mechanisms, and explore the transmission dynamics of e. albertii. his contributions to the field are evident through his published works and two patents, including an innovative method for producing disinfected liver.

🏆 Accolades and recognition

Dr. Hinenoya’s groundbreaking research has earned him several prestigious awards. he received research encouragement awards in 2011 and 2016 from the japanese symposium for Molecular epidemiology of pathogenic bacteria enterohemorrhagic e. coli infectious diseases. in 2021, he was honored with the young scientist award by the japanese society for bacteriology, further solidifying his reputation as a leader in the field of bacteriology.

🌍 Impact and influence

With a citation index of 26 in scopus, dr. hinenoya’s work has significantly influenced the scientific community, particularly in veterinary microbiology and zoonotic pathogen research. his Molecular epidemiology of pathogenic bacteria consultancy projects with taiko pharmaceutical have contributed to the development of effective disinfection methods against multidrug-resistant bacteria and foodborne pathogens, demonstrating the practical application of his research in public health and food safety.

💡 Legacy and future contributions

Dr. Hinenoya’s legacy lies in his unwavering commitment to combating zoonotic diseases and advancing veterinary microbiology. as he continues his research on e. albertii and other emerging pathogens, his work promises to shape the future of microbial science and public health. his dedication to mentoring young scientists and collaborating with international institutions ensures that his contributions will have a lasting impact on the field.

Notable Publications 

  • Title: Occurrence and cross contamination of Escherichia albertii in retail chicken outlets in Bangladesh
    Authors: Hassan, J., Utsho, K.S., Karmakar, S., Yamasaki, S., Hinenoya, A.
    Journal: International Journal of Food Microbiology, 2025, 431, 111081
  • Title: Prevalence of potentially pathogenic and antimicrobial-resistant Escherichia coli in raw milk and dairy products in Egypt
    Authors: Elbastawesy, A.M., Awasthi, S.P., Hatanaka, N., Deeb, A.M.M., Yamasaki, S.
    Journal: International Dairy Journal, 2025, 162, 106145
  • Title: Development of a novel modified selective medium cefixime–tellurite-phosphate-xylose-rhamnose MacConkey agar for isolation of Escherichia albertii and its evaluation with food samples
    Authors: Takehira, K., Manjunath, G.B., Hatanaka, N., Hinenoya, A., Yamasaki, S.
    Journal: International Journal of Food Microbiology, 2025, 430, 111057
  • Title: A plasmid-mediated type III secretion system associated with invasiveness and diarrheagenicity of Providencia rustigianii
    Authors: Hassan, J., Hinenoya, A., Hatanaka, N., Faruque, S.M., Yamasaki, S.
    Journal: mBio, 2024, 15(10)
  • Title: Detection of prolonged excretion of Escherichia albertii in stool specimens of a 7-year-old child by a newly developed Eacdt gene-based quantitative real-time PCR method and molecular characterization of the isolates
    Authors: Awasthi, S.P., Nagita, A., Hatanaka, N., Hinenoya, A., Yamasaki, S.
    Journal: Heliyon, 2024, 10(9), e30042

Mr. Zeeshan khan – Plant Biotechnology – Best Researcher Award

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Mr. Zeeshan khan - Plant Biotechnology - Best Researcher Award

National University of Sciences and Technology Islamabad - Pakistan

Author Profile

ORCID 

🌱 Early academic pursuits

Zeeshan khan embarked on his academic journey with a strong foundation in biotechnology, earning a bs in biotechnology from the international islamic university (iiui), islamabad, pakistan, in 2018. his undergraduate thesis focused on the in-vitro propagation and conservation of the medicinal plant stevia rebaudiana, showcasing his early interest in combining scientific innovation with sustainable practices. zeeshan further honed his expertise by pursuing an ms in plant biotechnology at the national university of sciences and technology (nust), where he conducted epidemiological studies of begomoviruses in the south asian region, graduating in 2020. currently, he is advancing his academic pursuits as a phd candidate in applied biosciences at nust, focusing on investigating the role of eco-friendly microbes in combating microplastic stress in agro-ecosystems.

🔬 Professional endeavors

Zeeshan’s career has been marked by his dedication to research and innovation. he began his professional journey as a research associate at the national agricultural research centre (narc), islamabad, from june 2017 to august 2018. here, he gained valuable experience in agricultural biotechnology and plant sciences. later, in 2021, he joined razbio.co.uk as a research associate at the department of plant biotechnology, atta-ur-rahman school of applied biosciences (asab), nust. these roles allowed him to contribute to cutting-edge research while refining his expertise in plant biotechnology and microbial applications.

🧬 Contributions and research focus

Zeeshan’s research contributions focus on addressing environmental and agricultural challenges through innovative scientific approaches. during his phd, he has been exploring the role of eco-friendly microbes in mitigating microplastic stress in agro-ecosystems, a critical issue in sustainable agriculture. his prior research has included the epidemiological studies of Plant Biotechnology begomoviruses, providing insights into plant viral diseases in south asia, and developing in-vitro propagation techniques for medicinal plants. equipped with skills in microbiology, molecular biology, and bioinformatics, zeeshan’s work bridges the gap between biotechnology and environmental sustainability.

🏆 Accolades and recognition

Zeeshan’s dedication to excellence has earned him recognition as a promising researcher. his active contributions to the field are highlighted by his scholarly publications and his participation Plant Biotechnology in innovative research projects. he maintains an active google scholar profile, reflecting his impact in the academic community. his achievements also include working on high-impact research projects at prestigious institutions like nust and narc, underscoring his capabilities as a researcher.

🌍 Impact and influence

Zeeshan’s research holds significant implications for global sustainability and agriculture. by addressing the pressing issue of microplastic pollution in agro-ecosystems, his work provides Plant Biotechnology valuable solutions for improving soil health and crop productivity. his efforts in studying plant viruses and conservation techniques also contribute to enhancing food security and biodiversity conservation. zeeshan’s interdisciplinary expertise and innovative approaches have made a lasting impact in the fields of plant biotechnology and applied biosciences.

✨ Legacy and future contributions

Zeeshan khan is poised to leave a lasting legacy in environmental biotechnology and sustainable agriculture. as a skilled researcher, he envisions contributing to groundbreaking advancements in eco-friendly agricultural practices and microbial biotechnology. his commitment to addressing global challenges such as microplastic pollution and plant health reflects his determination to shape a sustainable future. zeeshan’s ongoing research and future endeavors are set to inspire the next generation of scientists in his field.

Notable Publications

  • Title: Mycorrhizosphere bacteria alleviated arsenic toxicity by regulating organic acids, glyoxalase defense system, and metal transporters in soybean plants
    Authors: Zeeshan Khan, Shahrukh Khan, Mansour I. Almansour, Muhammad Asad, Mohammad Javed Ansari, Hamad Khan, Ijaz Ahmad
    Journal: South African Journal of Botany
  • Title: Mitigation of microplastic toxicity in soybean by synthetic bacterial community and arbuscular mycorrhizal fungi interaction: Altering carbohydrate metabolism, hormonal transduction, and genes associated with lipid and protein metabolism
    Authors: Muhammad Asad, Zeeshan Khan, Tariq Shah, Muhammad Abdullah Shah, Ayesha Imran, Salman Rasool, Jabar Zaman Khan Khattak, Shah Rukh Khan, Ajaz Ahmad, Parvaiz Ahmad
    Journal: Plant Stress
  • Title: Nanoplastics negatively affect nitrogen assimilation and metabolism in soybean roots more than in nodules
    Authors: Tariq Shah, Zeeshan Khan, Zainullah Bacha, Zahwa Zaffar, Fazal Munsif, Ajaz Ahmad, Parvaiz Ahmad
    Journal: Scientia Horticulturae
  • Title: Agro-biofortification of maize with selenium for higher grain selenium contents and productivity
    Authors: Tariq Shah, Tahani Awad Alahmadi, Mohammad Javed Ansari, Zeeshan Khan, Hamad Khan
    Journal: South African Journal of Botany
  • Title: Mycorrhizosphere bacteria inhibit greenhouse gas emissions from microplastics contaminated soil by regulating soil enzyme activities and microbial community structure
    Authors: Zeeshan Khan, Tariq Shah, Ghulam Haider, Fazal Adnan, Zeshan Sheikh, Mohamed A. El-Sheikh, Muhammad Faraz Bhatti, Parvaiz Ahmad
    Journal: Journal of Environmental Management

Dr. Sushant Sahu  – Electrochemistry – Best Researcher Award

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Dr. Sushant Sahu  - Electrochemistry - Best Researcher Award

Amity University - India 

Author Profile 

SCOPUS 

🌱 Early academic pursuits

Sushant Sahu began his academic journey with exceptional dedication and a passion for chemistry. he earned his b.sc. in chemistry from the university of mumbai in 2003, achieving first-class honors with distinction. his exceptional performance garnered him the prestigious sir ratan tata and jrd tata scholarships. motivated by his early success, he pursued an m.sc. in chemistry at the indian institute of technology (iit), guwahati, graduating in 2006 with a strong academic record. his academic foundation was further strengthened when he embarked on a doctorate in chemistry at clemson university, usa. here, he delved into the innovative field of photocatalytic co2 conversion using carbon dots, showcasing his commitment to addressing global environmental challenges.

🏛️ Professional endeavors

Sushant's career reflects his continuous pursuit of excellence in research and academia. as a ramanujan faculty fellow at amity university, navi mumbai, he currently leads groundbreaking research in advanced materials and environmental nanotechnology. previously, he held notable positions such as a senior project associate at csir-institute of minerals and materials technology and a visiting scholar at the university of louisiana. his postdoctoral roles at louisiana state university and clemson university further highlight his global impact, where he worked on cutting-edge projects, including multiphoton imaging and x-ray-driven materials for environmental applications.

🔬 Contributions and research focus

Sushant's research contributions are marked by innovation and interdisciplinary approaches. his work spans advanced materials, photo- and electrochemical energy conversion, optical Electrochemistry imaging, and environmental nanotechnology. his expertise in developing carbon dots for photocatalytic co2 conversion and anion exchange polymeric materials for water treatment has set benchmarks in sustainable chemistry. his contributions to multiphoton imaging and the development of electrochemical sensors further underscore his versatility and commitment to solving real-world problems through science.

🏆 Accolades and recognition

Sushant's illustrious career is adorned with numerous accolades. as a recipient of the prestigious ramanujan fellowship, he secured a significant grant from the science and engineering Electrochemistry research board (serb), india. his achievements include the national postdoctoral fellowship (npdf), the acs postdoc to faculty workshop selection, and multiple postdoctoral fellowships. he was also a guest editor for frontiers in chemistry and has received travel grants and enrichment awards for presenting his work at international platforms. his early academic excellence was recognized with scholarships and awards during his undergraduate and graduate studies.

🌍 Impact and influence

Sushant's research has had a far-reaching impact, addressing critical environmental challenges such as co2 conversion and water treatment. his innovative approaches in developing advanced Electrochemistry  materials and sensors have paved the way for sustainable solutions in energy and environmental science. as a mentor and collaborator, he has inspired budding scientists and contributed to fostering a culture of interdisciplinary research.

🌟 Legacy and future contributions

Sushant's journey is a testament to his unwavering dedication to scientific innovation and sustainability. his ongoing work in advanced materials and nanotechnology is poised to make significant contributions to environmental science and energy conversion. his vision for a cleaner and more sustainable future continues to inspire, leaving a lasting legacy in the global scientific community. through his research and mentorship, he aspires to empower the next generation of scientists to tackle the world's most pressing challenges.

Notable Publications 

  • Title: Efficient Synthesis of High-Performance Anion Exchange Membranes by Applying Clickable Tetrakis(dialkylamino)phosphonium Cations
    Author(s): Wang, Y., Wang, Y., Sahu, S., Gallo, A.A., Zhou, X.-D.
    Journal: Polymers, 2023, 15(2), 352
  • Title: Miscellaneous Dimensional Coordination Polymers and Luminescence Emission Properties of Cadmium(II)-Pseudohalide Complexes
    Author(s): Mautner, F.A., Fischer, R.C., Salem, N.M.H., Louka, F.R., Massoud, S.S.
    Journal: Inorganica Chimica Acta, 2022, 535, 120871
  • Title: In utero Exposure to Electronic-Cigarette Aerosols Decreases Lung Fibrillar Collagen Content, Increases Newtonian Resistance, and Induces Sex-Specific Molecular Signatures in Neonatal Mice
    Author(s): Cahill, K.M., Gartia, M.R., Sahu, S., Penn, A.L., Noël, A.
    Journal: Toxicological Research, 2022, 38(2), pp. 205–224
  • Title: Rapid and Direct Perfluorooctanoic Acid Sensing with Selective Ionomer Coatings on Screen-Printed Electrodes under Environmentally Relevant Concentrations
    Author(s): Sahu, S.P., Kole, S., Arges, C.G., Gartia, M.R.
    Journal: ACS Omega, 2022, 7(6), pp. 5001–5007
  • Title: Mmp12 Is Upregulated by in utero Second-Hand Smoke Exposures and Is a Key Factor Contributing to Aggravated Lung Responses in Adult Emphysema, Asthma, and Lung Cancer Mouse Models
    Author(s): Noël, A., Perveen, Z., Xiao, R., Paulsen, D.B., Penn, A.L.
    Journal: Frontiers in Physiology, 2021, 12, 704401

Prof. Qiang Huang – Materials used for the removal of environmental toxins – Best Researcher Award

Posted on by Innovator Awards

Prof. Qiang Huang - Materials used for the removal of environmental toxins - Best Researcher Award

Yunnan university - China 

Author Profile 

ORCID 

🌱 Early academic pursuits

Huang Qiang’s academic journey was rooted in his passion for environmental science and sustainable materials. with a deep commitment to advancing knowledge in the field, he pursued a phd in science, laying the groundwork for a distinguished career in research and education. his early years were marked by a relentless curiosity and a drive to uncover innovative solutions for environmental challenges, which would later define his professional endeavors.

🏫 Professional endeavors

As a professor and doctoral supervisor at the school of materials science, yunnan university, huang qiang has dedicated his career to educating the next generation of scientists and researchers. his teaching responsibilities are complemented by his extensive research activities, which focus on the critical areas of biomass resource utilization, co2 capture technology, and environmental remediation. his role at the university has allowed him to combine academic instruction with cutting-edge research, fostering an environment of innovation and discovery.

🔬 Contributions and research focus

Huang Qiang’s research contributions have significantly advanced the fields of biomass resource utilization and environmental remediation. his work on co2 capture technology addresses one of the most pressing global challenges—climate change. he has authored and co-authored over 40 research and teaching papers as the first author or corresponding author, showcasing his Materials used for the removal of environmental toxins expertise and dedication to disseminating knowledge. his studies have not only enhanced scientific understanding but also provided practical solutions for sustainable development and environmental conservation.

🏆 Accolades and recognition

Throughout his career, huang qiang has garnered recognition for his impactful research and academic contributions. his publications in esteemed journals reflect his standing as a leading Materials used for the removal of environmental toxins figure in his field. the acknowledgment of his work by the scientific community highlights the significance of his contributions to environmental science and materials research.

🌍 Impact and influence

Huang Qiang’s work has had a profound influence on both academia and the broader scientific community. his research on co2 capture and environmental remediation technologies has paved the way for innovative approaches to mitigating environmental degradation. as an educator, he has inspired countless students to pursue careers in science and environmental sustainability, shaping the future of research and innovation.

✨ Legacy and future contributions

Huang Qiang’s legacy lies in his unwavering commitment to addressing global environmental challenges through science and education. his efforts have not only advanced knowledge in his Materials used for the removal of environmental toxins field but also set a standard for interdisciplinary research and collaboration. as he continues his work, his future contributions are poised to drive further innovations in sustainable materials and environmental technologies, leaving a lasting impact on the field and society at large.

Notable Publications 

 

  • Title: Fe-catalyzed low-temperature hydrothermal liquefaction of coffee shells: Influence of operating parameters on bio-oil yield, distribution of bio-oil products
    Authors: Guangrong Liu, Fangyue Chen, Kaihong Cao, Bangheng Jin, Li Rao, Xin Jin, Feifei He, Qiang Huang
    Journal: Journal of the Energy Institute
  • Title: Energy-saving CO2 desorption from amine solution over Fe/SiO2/biochar catalysts: Desorption performance, structure-activity relationship, and mechanism
    Authors: Li Rao, Bangheng Jin, Dong Chen, Xin Jin, Guangrong Liu, Zilin Huang, Kaihong Cao, Fangyue Chen, Qiang Huang
    Journal: Chemical Engineering Journal
  • Title: Biochar-mediated release of CO2 from monoethanolamine/H2O solution with low energy requirement over ZrO2/SiO2/biochar ternary catalysts
    Authors: Dong Chen, Li Rao, Bangheng Jin, Xin Jin, Guangrong Liu, Zilin Huang, Kaihong Cao, Fangyue Chen, Qiang Huang
    Journal: Journal of Cleaner Production
  • Title: Efficient destruction of basic organo-nitrogenous compounds in liquid hydrocarbon fuel using ascorbic acid/H2O2 system under ambient condition
    Authors: Xin Jin, Xiaohu Du, Guangrong Liu, Bangheng Jin, Kaihong Cao, Fangyue Chen, Qiang Huang
    Journal: Journal of Hazardous Materials
  • Title: Ultrasound enhanced destruction of tetracycline hydrochloride with peroxydisulfate oxidation over FeS/NBC catalyst: Governing factors, strengthening mechanism and degradation pathway
    Authors: Guangrong Liu, Chuangfu Song, Zilin Huang, Xin Jin, Kaihong Cao, Fangyue Chen, Bangheng Jin, Li Rao, Qiang Huang
    Journal: Chemosphere

Dr. Szilvia Kassai – grief – Best Researcher Award

Posted on by Innovator Awards

Dr. Szilvia Kassai - grief - Best Researcher Award

University of Szeged, Albert Szent-Györgyi Medical School, Department of Behavioral Sciences - Hungary

Author Profile 

ORCID 

🌱 Early academic pursuits

Szilvia Kassai embarked on her academic journey with a passion for understanding human psychology. she earned her ph.d. in clinical psychology and addictology in 2019, specializing in addiction and recovery. her doctoral research laid the foundation for her lifelong commitment to exploring the intricate relationship between addiction, family dynamics, and personal growth. her academic achievements reflect her dedication to comprehensively addressing mental health challenges and the human experiences associated with them.

🎓 Professional endeavors

Currently serving as an assistant professor at the albert szent-györgyi medical school, university of szeged, szilvia plays a pivotal role in shaping the next generation of medical professionals. her teaching portfolio includes medical psychology and thanatology, where she brings an empathetic and research-driven approach to the classroom. over the past five years, she has also led collaborative research initiatives that explore the impact of addiction on families, with a particular focus on children growing up in such environments and their transition into adulthood.

🧠 Contributions and research focus

Szilvia’s research primarily utilizes person-centered qualitative methods to delve into the personal narratives of those affected by addiction. her work has uncovered critical insights into the grief recovery processes for individuals using psychoactive and synthetic substances, as well as the grieving processes of children who lose a parent struggling with addiction. her studies emphasize the significance of subjective experiences in psychotherapeutic support, illuminating the challenges faced by affected individuals. her research outcomes contribute meaningfully to understanding addiction and its psychological ramifications, fostering empathy and innovation in the field.

🏆 Accolades and recognition

Szilvia’s dedication to addiction and recovery research has earned her significant academic recognition. she has published 11 high-impact journal articles, contributing valuable knowledge to grief the fields of addiction studies and clinical psychology. with 3 authored books and a citation index of 294, her work has gained international acknowledgment, strengthening her reputation as a leading voice in qualitative psychological research.

🌍 Impact and influence

Through her pioneering studies, szilvia has brought attention to the often-overlooked familial consequences of addiction. her research provides a voice to children and families affected by grief these issues, ensuring their experiences are understood and addressed in scientific and therapeutic contexts. her commitment to shedding light on addiction-related grief and recovery processes has influenced both academic discourse and clinical practices, making a tangible difference in the lives of countless individuals.

✨ Legacy and future contributions

Szilvia’s legacy lies in her ability to connect personal narratives with scientific inquiry. by bridging the gap between lived experiences and academic research, she inspires a more empathetic approach to addressing mental health challenges. her ongoing studies into the grieving processes of children who lose parents to addiction are set to further enrich the field, offering fresh perspectives and actionable insights. as an educator and researcher, her influence continues to shape both academic scholarship and the well-being of affected communities.

Notable Publications 

  • Title: Folktales of Recovery – From Addiction to Becoming a Helper: Deep Structures of Life Stories Applying Propp’s Theory: A Narrative Analysis
    • Author(s): Dániel Kiss, Zsolt Horváth, Szilvia Kassai, Anna V. Gyarmathy, József Rácz
    • Journal: Journal of Psychoactive Drugs
  • Title: Using Interpretative Phenomenological Analysis (IPA) to Assess Recovery Processes: A Qualitative Analysis of Experience and Identity
    • Author(s): Szilvia Kassai
    • Journal: Book (Published by Crossref)