Dr. Junjie Gong | Innovative Leadership | Best Researcher Award

Dr. Junjie Gong | Innovative Leadership | Best Researcher Award

Guangxi University, China

Profiles 

Early Academic Pursuits 🌱

Junjie Gong’s academic journey began with a deep-rooted interest in mechanical engineering. Born in 1995, he pursued his undergraduate studies at Wuhan Polytechnic University, earning a Bachelor of Science degree in mechanical manufacturing and its automation in 2018. His academic foundation laid the groundwork for his evolving research aspirations. Demonstrating a keen interest in advancing his expertise, he embarked on a Ph.D. program in mechanical engineering through a joint cultivation initiative involving Guangxi University in Nanning and Zhejiang University in Hangzhou. This unique collaboration provided him with a multifaceted learning environment, combining theoretical insights and practical applications.

Professional Endeavors and Research Focus 🚀

Junjie Gong’s research endeavors span a wide spectrum of innovative domains, including nonlinear system control, motion control of autonomous vehicles, vehicle system dynamics, and mechanical dynamics. His meticulous approach to research has positioned him as a promising scholar in the field of mechanical engineering. Gong has collaborated extensively with the LiuGong Global R&D Center in Guangxi, China, contributing to the development of cutting-edge hydraulic excavators. This partnership signifies his ability to bridge academia and industry, underscoring his commitment to applying theoretical knowledge to solve real-world engineering challenges.

Contributions to Science and Engineering 📚

Gong’s scholarly output includes 10 publications in renowned scientific journals indexed in SCI and Scopus, reflecting the high impact and relevance of his research. In addition to his role as an author, he has contributed to the academic community by serving as a peer reviewer for journals, ensuring the quality and integrity of scientific discourse. His research has gained recognition through its citation index, which currently stands at eight—a testament to the influence and applicability of his findings. Beyond academia, Gong has demonstrated an innovative spirit by securing 11 authorized Chinese patents, with an additional five patents under examination. These patents highlight his ingenuity and commitment to advancing mechanical engineering technologies.

Accolades and Recognition 🏅

While Junjie Gong has yet to receive formal professional memberships or editorial appointments, his accomplishments in patent innovation and academic publications speak volumes about his dedication and talent. His ability to lead research projects and publish extensively at a young age is a remarkable achievement. His collaborative efforts with industry further amplify his profile, positioning him as a rising star in the mechanical engineering domain.

Impact and Influence 🌟

Gong’s collaborative work with LiuGong Global R&D Center has significantly impacted the field of hydraulic excavators, particularly in enhancing their motion control systems and mechanical dynamics. By integrating his research into industrial applications, Gong has contributed to technological advancements that improve efficiency, safety, and reliability. His work in nonlinear system control and path planning is particularly relevant in the era of autonomous vehicles, offering solutions to complex challenges in navigation and system stability.

Legacy and Future Contributions 🔮

Junjie Gong’s academic journey is just beginning, yet his contributions have already left a mark on the field of mechanical engineering. As he progresses in his Ph.D. studies, his research is poised to address more complex challenges in motion control and mechanical dynamics. Gong’s ability to innovate, coupled with his collaborative approach, positions him as a thought leader in his field. His future endeavors are likely to expand into interdisciplinary areas, merging mechanical engineering with emerging technologies such as artificial intelligence and robotics.

📝Notable Publications

Research on the residual vibration suppression of a controllable mechanism robot

Authors: J. Gong, G. Cai, W. Wei, K. Zhang, S. Peng

Journal: IEEE Access

Year: 2022

Kinematic performance analysis of a controllable mechanism welding robot with joint clearance

Authors: J. Gong, W. Wei, G. Cai, Y. Liu, S. Peng

Journal: MATEC Web of Conferences

Year: 2020

Path-Tracking Cascade Control of Hydraulic-Tracked Vehicles Based on Port-Controlled Hamiltonian Model

Authors: J. Gong, S. Guo, H. Shen, W. Wei, Y. Long

Journal: IEEE Transactions on Intelligent Vehicles

Year: 2024

Finite Element Model of Kinematic Pair Clearances of Elastic Linkage Mechanisms

Authors: G. Cai, J. Gong, S. Peng, W. Wei

Journal: Journal of Physics: Conference Series

Year: 2023

Analytical Formula of Positive Position Solution of 2PPa-PSS 3-Translational Parallel Mechanism with Low Coupling-degree and its Numerical Application

Authors: J. Gong, W. Wei, S. Peng, K. Zhang

Journal: Jordan Journal of Mechanical & Industrial Engineering

Year: 2021

Dr. Shenglong Tan | Innovative Leadership | Best Researcher Award

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

Dr. Qijie Li | Innovative Leadership | Best Researcher Award | 3037

Dr. Qijie Li | Innovative Leadership | Best Researcher Award

West China Hospital of Sichuan University, China

🔗 Profile

Scopus

Early Academic Pursuits 📚

Qijie Li’s academic journey began with a profound interest in medical science and research, culminating in a Ph.D. from Sichuan University. His early academic pursuits were marked by a deep commitment to understanding chronic diseases and the physiological effects of high-altitude environments. During his postdoctoral fellowship at Sichuan University, Dr. Li developed a keen focus on the complex interplay between high-altitude conditions and various chronic diseases. This period laid the foundation for his future research and professional endeavors.

Professional Endeavors 🏥

Currently serving as an Assistant Research Fellow at West China Hospital of Sichuan University, Dr. Li has made significant strides in the field of medical research. His role involves conducting advanced research in chronic diseases, traumatic stress, and wound healing, particularly in high-altitude settings. Dr. Li’s professional journey is highlighted by his involvement in key research projects that explore the impacts of environmental stressors on human health. He is also an active member of several professional societies, including the Special Committee for Women and Children of the Sichuan Information Society of Traditional Chinese Medicine and the Branch of Nutrition Epidemiology of the Chinese Nutrition Society.

Contributions and Research Focus 🔬

Dr. Li’s research focus is primarily on chronic diseases prevalent in high-altitude regions and their management. His notable work includes investigating the effects of the HIF-2α inhibitor PT2385 on high-altitude polycythemia, a condition characterized by an abnormal increase in red blood cells. His research has demonstrated that PT2385 treatment significantly improves congestion phenotypes, reduces erythrocytes and hemoglobin levels, mitigates blood vessel formation, and alleviates lipid peroxidation and inflammation. This study not only provides valuable insights into the physiological and immunological impacts of PT2385 but also lays the groundwork for clinical applications in preventing and treating high-altitude polycythemia.

Dr. Li’s work also extends to traumatic stress and wound healing. His research into the role of adipose tissue and cells in innate immune regulation has opened new avenues for understanding the body’s response to stress and injury, with potential implications for accelerated rehabilitation and precision nursing.

Accolades and Recognition 🏆

Dr. Li has been recognized for his exceptional contributions to medical research and innovation. In 2020, he received the third prize in the Science and Technology Award of the Tibet Autonomous Region, a testament to his impactful research and dedication. His extensive list of publications, including articles in reputable journals such as the European Journal of Pharmaceutical Sciences and MedComm, underscores his scholarly achievements. Dr. Li’s work has garnered significant attention within the academic community, reflected in his high citation index and influential research findings.

Impact and Influence 🌍

Dr. Li’s research has had a substantial impact on both the scientific community and clinical practice. His studies on high-altitude chronic diseases and innovative treatment approaches have provided new perspectives on managing these conditions. By elucidating the mechanisms through which PT2385 and other treatments affect high-altitude polycythemia and related disorders, Dr. Li’s work contributes to the development of more effective therapeutic strategies. His research also influences clinical practices related to trauma care and wound healing, enhancing patient outcomes and recovery processes.

Furthermore, Dr. Li’s involvement in professional memberships and collaborations with institutions like Tibet Autonomous Region People’s Hospital amplifies his impact, fostering advancements in medical research and practice.

Legacy and Future Contributions 🚀

As Dr. Li continues to advance his research, his legacy is being shaped by his commitment to improving healthcare outcomes for individuals living in challenging environments. His pioneering work in high-altitude medicine and chronic disease management sets a high standard for future research in these areas. Looking ahead, Dr. Li’s future contributions are expected to focus on expanding the understanding of chronic disease mechanisms and developing novel treatment approaches.

His ongoing projects and collaborations suggest a promising trajectory for his research, with potential to influence global health practices and contribute to the scientific community’s knowledge base. Dr. Li’s dedication to advancing medical science and improving patient care reflects a lasting legacy that will continue to inspire and benefit future generations of researchers and clinicians.

In summary, Qijie Li’s academic and professional journey is characterized by his groundbreaking research, significant contributions to medical science, and recognition as a leading figure in his field. His work not only addresses pressing health issues but also paves the way for future advancements in medical research and clinical practice.

📚 Publications

Yuanyuan Xu | Innovative Leadership | Best Researcher Award

Prof Dr. Yuanyuan Xu | Innovative Leadership | Best Researcher Award

Nanjing Agricultural University - China  

Author Profile 

Early Academic Pursuits

Yuanyuan Xu embarked on her academic journey with a Bachelor's degree in Chemistry and Material Sciences from Nanjing Normal University. This foundational knowledge laid the groundwork for her later pursuits in biology, culminating in a Ph.D. from Nanjing University. Her multidisciplinary background equipped her with a broad understanding of scientific principles, essential for her diverse research interests and professional endeavors.

Professional Endeavors

Joining Nanjing Agricultural University as a Lecturer marked the beginning of Xu's career in academia. Over the years, she progressed to Associate Professor and ultimately Professor, showcasing a trajectory of continuous growth and achievement. Her roles within academic organizations, including serving as Syndic in several prestigious societies, highlight her commitment to advancing veterinary science and biochemistry.

Contributions and Research Focus

Xu's research interests encompass a wide array of critical areas within veterinary medicine and biochemistry. Noteworthy among these are her efforts in developing new detection methods for veterinary drug residues and pathogens. Her work in this domain is pivotal for ensuring food safety and controlling the spread of animal diseases. Additionally, her focus on understanding the biochemical mechanisms of mastitis in dairy cows reflects a dedication to improving animal health and welfare.

A standout aspect of Xu's contributions is her expertise in constructing biosensors, particularly colorimetric and electrochemical ones. These biosensors play a crucial role in monitoring drug residues and pathogens, thereby addressing environmental and societal security concerns. Moreover, her proficiency in synthesizing nano-herbal agents underscores her innovative approach to tackling health risks posed by bacterial infections.

Accolades and Recognition

Xu's contributions have been widely recognized, as evidenced by numerous awards and honors. Notable among these are her achievements as a Young Female Scientist Candidate and recipient of prestigious scholarships and teaching awards. Her excellence in mentoring graduate and undergraduate students is reflected in their notable accomplishments, including winning scholarships and publishing impactful research papers.

Impact and Influence on Innovative Leadership

Xu's impact extends beyond academia into industry and societal domains. Her collaborations with organizations such as Merial Animal Health Co. and Huangpu Customs highlight her role in translating research into practical applications. Through her expertise in electrochemical analytical methods and rapid detection technologies, she has contributed significantly to disease prevention and control strategies, particularly in the context of infectious diseases and mastitis in dairy cows.

Legacy and Future Contributions

Xu's legacy lies in her multifaceted contributions to veterinary science, biochemistry, and education. Her innovative research, mentorship of students, and engagement with industry partners have established her as a leading figure in her field. Looking ahead, her continued focus on developing novel detection methods, advancing nanomedicine formulations, and fostering scientific collaborations promises to further elevate the impact of her work on animal and environmental health.

Yuanyuan Xu embodies innovative leadership through her proactive approach to addressing complex challenges in veterinary science and biochemistry. As a Professor at Nanjing Agricultural University, she consistently fosters a culture of innovation and collaboration within her research team and academic community. Her visionary leadership is evident in her pioneering research projects, such as developing new detection methods for veterinary drug residues and pathogens, which have far-reaching implications for food safety and public health.

Furthermore, Xu's leadership extends beyond the laboratory, as she actively engages with industry partners and academic societies to drive technological advancements and knowledge exchange. Her role as Syndic in various academic organizations underscores her commitment to promoting cutting-edge research and fostering interdisciplinary dialogue. By championing novel approaches like biosensor construction and nano-herbal agent synthesis, Xu not only pushes the boundaries of scientific discovery but also inspires the next generation of researchers to think creatively and ambitiously. Her innovative leadership leaves a lasting impact on the field, shaping the future trajectory of veterinary medicine and biochemistry.

Notable Publications 

3.5