Dr. Shenglong Tan | Innovative Leadership | Best Researcher Award

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Dr. Shenglong Tan | Innovative Leadership | Best Researcher Award

Stomatological Hospital of Southern Medical University, China

Profile 

Orcid

🎓 Early Academic Pursuits

ShengLong Tan’s journey in academia began with his enrollment at LuDong University, where he pursued a Bachelor’s degree in Materials Chemistry (2007–2011). His undergraduate education laid a strong foundation in the principles of chemistry and materials science, sparking a keen interest in the development and application of innovative materials. Tan’s early work demonstrated his innate curiosity and drive to understand the fundamental properties and behaviors of materials, which would later define his career trajectory.

Continuing his academic journey, he pursued a Master’s degree in Materials Physics and Chemistry at Tianjin University of Science and Technology (2011–2014). During this time, Tan delved deeper into the physics of materials, exploring thermolysis parameters and kinetic studies in complex systems. His research on copolyamide 66 crystallization and thermodynamics revealed a meticulous approach to experimental design and analysis, reflecting his growing expertise in material science.

Fueled by his ambition to contribute to interdisciplinary advancements, Tan embarked on a PhD in Biomedical Engineering at the Huazhong University of Science and Technology (2014–2021). His doctoral research, combining materials science with biomedical applications, laid the groundwork for his future contributions to tissue engineering and regenerative medicine.

💼 Professional Endeavors

Dr. Tan’s postdoctoral tenure at Southern Medical University (2021–present) further solidified his position as a leader in clinical medicine and biomaterials. His work has primarily focused on exploring the potential of odontoblast exosomes in regulating dental pulp stem cell differentiation and repairing pulpitis. Supported by the National Natural Science Foundation of China, this project underscored his ability to integrate cellular biology with material science to address critical challenges in dental health.

A notable achievement in his professional journey is his leadership in a Youth Project of the National Natural Science Foundation of China (2022). His work on biomimetic mineralization has paved the way for enhanced degradation, absorption, and osteogenesis of monetite-based biomaterials, securing funding of 300,000 RMB. This project exemplifies his innovative approach to combining natural principles with synthetic advancements to drive impactful outcomes in bone repair.

📚 Contributions and Research Focus

Dr. Tan’s prolific research output reflects his unwavering commitment to advancing biomaterials for dental and bone applications. Some of his key contributions include:

  1. Dental Hypersensitivity Solutions: Dr. Tan has developed biphasic calcium phosphate materials with high acid-resistance stability for long-term treatment of dentin hypersensitivity. His innovative work, published in Dental Materials (2023), offers promising solutions for this widespread condition.
  2. Bone Tissue Engineering: His exploration of biomimetic non-collagenous proteins-calcium phosphate complexes has demonstrated superior osteogenesis by regulating macrophage IL-27 secretion. This research, published in Biomaterials (2024), highlights the therapeutic potential of these materials in promoting bone repair and regeneration.
  3. 3D-Printed Scaffolds: Dr. Tan’s involvement in the design of Bosutinib-laden 3D-printed zein scaffolds, which promote osteogenesis, showcases his expertise in leveraging cutting-edge printing technologies for advanced biomedical applications.
  4. Core-Shell Nanomaterials: His work on nano-hydroxyapatite-silica composites has offered groundbreaking insights into managing dentin hypersensitivity, emphasizing long-term stability and performance.

These contributions demonstrate a clear focus on biomaterials for dental health and bone regeneration, blending fundamental material science with clinical relevance.

🏆 Accolades and Recognition

Dr. Tan’s achievements have been widely recognized through multiple avenues:

  • Funding Support: Securing competitive grants such as the Youth Project of the National Natural Science Foundation of China highlights his research credibility and innovation.
  • High-Impact Publications: With numerous papers in prestigious journals like Biomaterials, iScience, and ACS Applied Materials & Interfaces, Dr. Tan has established himself as a prolific researcher in biomaterials and biomedical engineering.
  • Collaborative Endeavors: His co-authored works with leading researchers worldwide underscore his ability to engage in impactful collaborations.

🌍 Impact and Influence

Dr. Tan’s research has contributed significantly to the fields of dental health and bone regeneration. By addressing pressing clinical challenges, such as dentin hypersensitivity and bone defects, his work has directly influenced the development of more effective and accessible treatments. Beyond his technical contributions, Dr. Tan serves as a role model for aspiring scientists, demonstrating the power of interdisciplinary approaches in solving real-world problems.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Tan is poised to expand his influence in the biomaterials domain. His ongoing research on injectable bone cements with magnesium-containing microspheres highlights his dedication to innovation and practical application. His vision for the future includes:

  • Advancing the design of biomimetic materials for enhanced regenerative outcomes.
  • Establishing frameworks for clinical translation of lab-scale innovations.
  • Mentoring the next generation of scientists in pursuing interdisciplinary and impactful research.

Through his tireless dedication to research, education, and collaboration, Dr. Tan is shaping a legacy that bridges fundamental science with clinical practice, ensuring that his contributions will resonate for generations to come.

📝Notable Publications

A monetite/amorphous silica complex for long-term dentine hypersensitivity treatment through the acid stability and mineralization promoting effect of silica

Authors: Yifan Wang, Shangsi Chen, Shenglong Tan

Journal: Journal of Materials Chemistry B

Year: 2024

3D-printed Mg-substituted hydroxyapatite/gelatin methacryloyl hydrogels encapsulated with PDA@DOX particles for bone tumor therapy and bone tissue regeneration

Authors: Shangsi Chen, Yue Wang, Junzhi Li, Haoran Sun, Ming-Fung Francis Siu, Shenglong Tan

Journal: International Journal of Bioprinting

Year: 2024

Bosutinib Laden Three-Dimensional Printed Zein Scaffolds Promote Osteogenesis

Authors: Xianghui Zou, Jingyao Yin, Qian Lei, Xinghong Luo, Shuoling Chen, Xiaoshan Yang, Shenglong Tan, Dandan Ma

Journal: ACS Applied Polymer Materials

Year: 2024

Multilayered Shape-Morphing Scaffolds with a Hierarchical Structure for Uterine Tissue Regeneration

Authors: Shangsi Chen, Shenglong Tan, Liwu Zheng, Min Wang

Journal: ACS Applied Materials & Interfaces

Year: 2024

Structure and Properties of Gelatin Methacryloyl (GelMA) Synthesized in Different Reaction Systems

Authors: Shangsi Chen, Yue Wang, Jiahui Lai, Shenglong Tan, Wang M

Journal: Biomacromolecules

Year: 2023

Assoc Prof Dr. Fan Fan | Innovative Leadership | Best Researcher Award

Published on by Leadership and Management

Assoc Prof Dr. Fan Fan | Innovative Leadership | Best Researcher Award

Wuhan University , China

Profile 

Scopus 

🎓 Early Academic Pursuits

Fan Fan embarked on his academic journey with a deep interest in the fields of electronic information and engineering. He completed his bachelor’s degree in 2009 from Huazhong University of Science and Technology, one of China’s leading universities known for its strong emphasis on engineering and technology. His passion for research led him to continue his studies at the same institution, where he earned his Doctorate in 2015. This solid foundation laid the groundwork for his future contributions to the field of electronic information, particularly in the areas of infrared imaging and image processing.

During his academic training, Fan Fan was involved in various research projects that helped him hone his skills and deepen his understanding of complex technological concepts. His doctoral research focused on innovative methods to enhance the detection and recognition rate of small targets in infrared imaging, a field that was rapidly evolving with the advent of new technologies and computational methods. This early phase of his career was marked by a commitment to addressing real-world challenges through scientific inquiry and technological innovation.

🛠️ Professional Endeavors

After completing his doctoral studies, Fan Fan joined the School of Electronic Information at Wuhan University, where he quickly rose through the ranks to become an associate professor and doctoral supervisor. His role at Wuhan University involves not only teaching and mentoring the next generation of engineers but also leading cutting-edge research projects that push the boundaries of what is possible in the field of infrared imaging.

As the project leader, Fan Fan has presided over several significant research initiatives funded by prestigious organizations. These include the Foundation Strengthening program, Frontier Innovation projects, the National Natural Science Foundation, and the Natural Science Foundation of Hubei Province. His leadership in these projects underscores his ability to drive complex research endeavors and deliver impactful results.

Fan Fan is also a backbone member of the innovation group of the Ministry of Education and the innovation group of Hubei Province. These groups are dedicated to fostering innovation in education and technology, and Fan Fan’s involvement highlights his commitment to contributing to broader societal advancements through his expertise in electronic information.

🔍 Contributions and Research Focus

Fan Fan’s research interests are centered on infrared imaging, spectral image processing, infrared and visible image fusion, and infrared dim target detection. These areas are critical for a wide range of applications, including military, environmental monitoring, and industrial automation. His work is particularly focused on improving the detection and recognition rates of small targets, which is a challenging problem in the field of infrared imaging due to factors such as noise, low contrast, and the complexity of the target’s background.

Over the years, Fan Fan has published more than 60 academic papers in internationally recognized journals such as the Journal of Applied Spectroscopy (JAS), IEEE Transactions on Circuits and Systems for Video Technology (CSVT), IEEE Transactions on Geoscience and Remote Sensing (TGRS), and IEEE Transactions on Intelligent Transportation Systems (TITS). His contributions to these journals have been widely cited, with three of his papers being recognized as highly cited by Essential Science Indicators (ESI) and one as a hot paper. These accolades reflect the significance and impact of his research in the scientific community.

🏆 Accolades and Recognition

Fan Fan’s contributions to the field of electronic information have been recognized with several prestigious awards. In 2022, his research on “Research on several problems and Methods of infrared imaging Enhancement” earned him the second prize in the Natural Science Award of Hubei Province. This award is a testament to the innovative nature of his work and its relevance to addressing key challenges in infrared imaging.

In 2018, he was awarded the first prize in the Natural Science Award of Hubei Province for his research on “Efficient and high-precision image matching theory and its Application.” This work demonstrated his ability to develop high-impact solutions that are not only theoretically sound but also practical and applicable to real-world problems.

Fan Fan’s earlier work in 2017 on “Research on some basic problems of high-precision image matching in visual perception” also received the second prize in the Natural Science Award from the Chinese Society of Automation. These recognitions highlight his sustained excellence in research and his contributions to advancing the field of electronic information.

🌍 Impact and Influence

Fan Fan’s research has had a significant impact on the field of infrared imaging and image processing. His innovative approaches to improving small target detection and image fusion have influenced both academic research and practical applications. His work has contributed to advancements in military surveillance, environmental monitoring, and industrial automation, where high-precision image processing is critical.

Moreover, as a doctoral supervisor, Fan Fan has mentored numerous students who have gone on to make their own contributions to the field. His influence extends beyond his immediate research, as he helps shape the future of electronic information through his teaching and mentorship.

🚀 Legacy and Future Contributions

Looking ahead, Fan Fan is poised to continue making significant contributions to the field of electronic information. His ongoing research projects and his leadership in innovative groups at the Ministry of Education and Hubei Province position him at the forefront of technological advancements in infrared imaging and image processing.

His future work is likely to focus on further enhancing the capabilities of infrared imaging systems, particularly in terms of target detection and image fusion. As the field continues to evolve, Fan Fan’s research will undoubtedly play a critical role in shaping the future of electronic information and its applications in various industries.

Publications 

Instance segmentation of pigs in infrared images based on INPC model

Authors: Wang, G., Ma, Y., Huang, J., Li, H., Li, Z.

Journal: Infrared Physics and Technology

Year: 2024

PTET: A progressive token exchanging transformer for infrared and visible image fusion

Authors: Huang, J., Chen, Z., Ma, Y., Tang, L., Xiang, X.

Journal: Image and Vision Computing

Year: 2024

A progressive framework for rotary motion deblurring

Authors: Qin, J., Ma, Y., Huang, J., Fan, F., Du, Y.

Journal: Defence Technology

Year: 2024

CMFuse: Cross-Modal Features Mixing via Convolution and MLP for Infrared and Visible Image Fusion

Authors: Cai, Z., Ma, Y., Huang, J., Fan, F., Zhao, Z.

Journal: IEEE Sensors Journal

Year: 2024

Robust Feature Matching via Graph Neighborhood Motion Consensus

Authors: Huang, J., Li, H., Gong, Y., Du, Q., Ma, J.

Journal: IEEE Transactions on Multimedia

Year: 2024

Federico Galli-Charismatic Leadership-Best Researcher Award

Published on by Leadership and Management

Prof Dr. Federico Galli-Charismatic Leadership-Best Researcher Award

Université de Sherbrooke-Canada 

Author Profile

Early Academic Pursuits

Dr. Federico Galli's academic journey began with his Bachelor's degree in Industrial Chemistry at the Università degli Studi di Milano, where he completed his degree with a thesis focusing on the characterization of the surface acidity of doped niobium oxide catalysts. Building on this foundation, he pursued a Master's degree in Industrial Chemistry and Management, conducting research on the liquid-liquid and vapor-liquid equilibria of highly non-ideal mixtures of industrial interest.

His academic pursuits reached their pinnacle with a Doctorate in Industrial Chemistry, completed at the Università degli Studi di Milano. His doctoral research centered around the reduction of the carbon footprint of fuels and petrochemicals, utilizing vegetable oils as a starting point. Notably, his work contributed to the fields of Chemical Synthesis and Catalysis, Clean Technologies, and Chemical Processes.

Professional Endeavors

Following his academic achievements, Dr. Galli ventured into the professional realm, serving as a Postdoctoral Fellow in various prestigious institutions. His roles included responsibilities in catalyst synthesis, reactor and experiment design, and the assembly of a micro-refinery unit for natural gas conversion at École Polytechnique de Montréal. He demonstrated leadership by heading a team, co-authoring patents, and participating in Hazard and Operability (HAZOP) studies.

He continued his postdoctoral research at the Università degli Studi di Milano, focusing on the synthesis of methanol from carbon dioxide. Dr. Galli's expertise expanded to the intensification of biolubricant synthesis from vegetable oil and biodiesel, incorporating ultrasound cavitation for enhanced reaction rates.

Contributions and Research Focus

Dr. Galli transitioned to academia as an Assistant Professor at the Université de Sherbrooke, where he embarked on a tenure track focused on chemical processes and energy applications. His research specialization includes chemical engineering, catalysis, and chemistry, with a keen interest in biomass, biofuels, and advanced oxidation processes.

His diverse research experience spans the development of new catalysts, synthesis of methanol from carbon dioxide, and the study of biolubricant synthesis. Notably, he secured multiple research grants, including a Discovery Grant from the Natural Sciences and Engineering Research Council of Canada (NSERC), emphasizing cleaner production and catalysis.

Accolades and Recognition

Dr. Galli's contributions have not gone unnoticed. He received awards such as the Fausto Radici Prize for the best industrial chemistry Master thesis of 2010 and a PRIN (Progetti di Rilevante Interesse Nazionale) grant during his doctoral studies. These accolades underscore the excellence and impact of his research.

Impact and Influence on Charismatic Leadership+

Dr. Galli's impact is evident through his involvement in projects with potential industrial applications, publications in reputable journals, and the development of innovative processes, as seen in the assembly of a micro-refinery unit and the synthesis of methanol from carbon dioxide.

Charismatic leaders often demonstrate a keen understanding of emotional intelligence, connecting with the emotions of their team members and creating a supportive and inclusive atmosphere. The ability to take calculated risks and make bold decisions sets charismatic leaders apart, fostering a culture of innovation and adaptability. Additionally, these leaders are known for their personal sacrifices and willingness to put the collective interest above their own. The impact of charismatic leadership extends beyond immediate results, as it can inspire long-term loyalty and commitment from followers. While charismatic leadership can be highly effective, it is crucial for leaders to balance their charisma with ethical considerations and inclusivity, ensuring a sustainable and healthy organizational culture that promotes both individual growth and collective success.

Legacy and Future Contributions

As an Assistant Professor, Dr. Galli's legacy is unfolding through his research, teaching, and leadership roles. His future contributions are anticipated to further enrich the fields of chemical processes, catalysis, and energy applications, leaving a lasting impact on academia and industry alike.

Charismatic leadership is a captivating and influential style that centers around a leader's ability to inspire and motivate others through their magnetic personality and compelling communication. A charismatic leader possesses an innate charm that draws followers in, creating a sense of trust and admiration. These leaders are often visionary, painting a vivid picture of a compelling future that resonates with the collective aspirations of their team. Their confidence and self-assurance are contagious, instilling a belief in the team's capabilities and fostering a shared commitment to achieving ambitious goals. Effective communication is a hallmark, as charismatic leaders skillfully articulate their vision using persuasive language, emotional appeal, and relatable stories, creating a deep connection with their audience. This leadership style is not only about achieving results but also about creating a positive and engaging work environment where followers feel personally connected to the leader and the overarching mission.

Citation 

  • Citations  1502     1173
  • h-index     23         21
  • i10-index  47         40

Notable publications