Valerio Belardi | Mechanical Engineering | Best Researcher Award

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Dr. Valerio Belardi  –  Mechanical Engineering  –  Best Researcher Award

University of Rome Tor Vergata | Italy

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ORCID

📍Current Position

Dr. Valerio G. Belardi is an accomplished Assistant Professor of Machine Design at the University of Rome Tor Vergata. Additionally, he serves as an Adjunct Professor of Mechanical Engineering at the Catholic Institute of Technology. His career focus is on machine design, structural analysis, and the development of advanced modeling approaches for complex mechanical systems. His work extends into significant research projects in nuclear fusion, particularly in thermostructural analysis, lattice metamaterials, and tokamak reactor design methodologies. Through these endeavors, he has contributed extensively to both academic and applied engineering fields, making notable strides in materials and mechanical structural design.

 

📝Publication Achievements

Dr. Belardi’s contributions to the academic and professional engineering communities are reflected in his impressive portfolio of scientific publications. He is a published author in high-impact journals, where his work covers topics such as composite laminates, custom finite element modeling, composite lattice structures, and aluminum foam simulations. His peer-reviewed articles have gained recognition within the fields of machine design, nuclear fusion, and material science. Furthermore, his role as Guest Editor for notable issues like Advanced Finite Element Method and Its Applications in Applied Sciences (MDPI) and Theoretical and Numerical Analysis of Composite Structures in Buildings (MDPI) highlights his leadership in guiding specialized discussions within the engineering community.

 

🔍Ongoing Research

Dr. Belardi is involved in several ongoing projects that highlight his expertise and dedication to innovation. His projects are often interdisciplinary and international in nature, bringing together leading institutions and research centers. Some of his prominent projects include:

  • Cryostat System for DTT Reactor: Dr. Belardi led a project in collaboration with ENEA to design and validate a cryostat system for the DTT fusion reactor. This project involves complex analyses for operative and seismic conditions.
  • Multi-axial Fatigue Design of Metal Components: His work on multi-axial fatigue design, a collaboration with EUROfusion, aims to create criteria for predicting fatigue crack propagation in nuclear fusion environments, employing both experimental and finite element modeling approaches.
  • DEMO Divertor Pin Joints: Working with Culham Center for Fusion Energy, he is formulating structural integrity guidelines for critical components in fusion reactors.
  • Design of Metamaterials for Fusion Reactors: In partnership with various European institutions, Dr. Belardi is developing high-energy-absorbing tungsten lattice metamaterials, adding value to the DEMO and DTT fusion reactors.

 

🔬 Research Interests

Dr. Belardi’s research interests reflect a dedication to pushing the boundaries of machine design and structural analysis. He specializes in the analytical and numerical modeling of composite structures and bolted joints, stress analysis of welded joints, and aluminum foams. His expertise also extends to anisogrid lattice structures, genetic optimization algorithms, and the analysis of materials under extreme conditions, such as those found in fusion reactors. These areas of focus position him at the forefront of research in mechanical and structural engineering.

 

🎓Academic Background

Dr. Belardi’s academic journey began with a Bachelor’s degree in Mechanical Engineering from the University of Rome Tor Vergata, followed by a Master’s degree in the same discipline, graduating cum laude. In 2018, he completed his Ph.D. in Design, Manufacturing, and Operations Engineering with a scholarship from Avio S.p.A., where his thesis explored anisogrid composite lattice shells and bolted joints. These educational milestones laid a strong foundation for his expertise in advanced engineering practices, simulation, and design.

 

🏆Scholarships and Awards

Throughout his career, Dr. Belardi has received numerous awards and honors. Most notably, he earned the Materials 2022 Outstanding Reviewer Award from MDPI for his contributions to scientific peer review. His work is recognized not only in Italy but also internationally, through collaborations with EUROfusion, the ENEA research center, and other prestigious organizations.

 

🧬Bioinformatics 

While Dr. Belardi’s research is rooted in mechanical and structural engineering, his work occasionally intersects with bioinformatics through his development of analytical tools and simulation techniques that could benefit biological structural analyses. His analytical methods and structural simulations have the potential to be adapted for use in bioinformatics, particularly in areas where structural analysis is critical.

 

🌐Professional Associations 

Dr. Belardi is actively involved in numerous professional associations and international collaborations, including partnerships with EUROfusion and ENEA. His role within these organizations emphasizes his commitment to advancing engineering through multi-institutional teamwork, expanding the reach of his research and its potential applications.

 

 📚Training & Workshops 

Dr. Belardi has attended and contributed to workshops and training sessions, especially those connected to his research in nuclear fusion and finite element modeling. His attendance at conferences, like the EUROfusion WPDIV Monitoring Meetings and the International Conference on Stress Analysis (AIAS 2023), signifies his ongoing engagement with cutting-edge research discussions and advancements in his field.

 

🎤Oral Presentations and🗣️Thought Leadership 

An accomplished presenter, Dr. Belardi has delivered presentations at numerous international conferences. His recent presentations at EUROfusion and AIAS demonstrate his expertise and ability to communicate complex topics effectively. Through these talks, he shares his findings on structural assessment, fatigue design, and composite materials, making his insights accessible to broader audiences.

 

🧑‍🔬Tasks Completed as a Researcher 

Dr. Belardi has successfully led research tasks such as the optimization of composite lattice structures, finite element analysis for various reactor components, and methodologies for spot joint analysis. His work in these areas showcases a strong commitment to improving structural integrity and material efficiency in demanding applications.

 

🚀Success Factors 

The success of Dr. Belardi’s research can be attributed to his rigorous analytical skills, innovative approach to problem-solving, and extensive collaboration with both academic and industry partners. His ability to navigate complex projects with an interdisciplinary approach has allowed him to make significant contributions to machine design and structural analysis.

 

🧪Publications & Laboratory Experience

Dr. Belardi has an extensive background in laboratory research and simulation. His contributions in these settings include developing custom finite element modeling techniques, optimization workflows, and complex structural analyses for composite materials and welded joints. His laboratory experience strengthens his theoretical insights, enabling practical applications in machine design.

 

🔍 Conclusion

Dr. Valerio G. Belardi stands out as a dedicated and innovative researcher in machine design and structural analysis. His work has profoundly impacted nuclear fusion research and material science, positioning him as a respected figure in his field. His academic achievements, industry collaborations, and publication record testify to his commitment to advancing engineering knowledge and applications. Through his ongoing projects and research, Dr. Belardi is poised to continue influencing future developments in structural engineering and machine design.

📚Publications

  • Divertor Tokamak Test facility project: status of design and implementation

      Authors: Romanelli, F., Abate, D., Acampora, E., Zuin, M., Zumbolo, P.

      Journal: Nuclear Fusion

  • Multiaxial fatigue rule applied to disc specimens with variable thickness subjected to an equibiaxial stress state

      Authors: Villani, G., Aiello, G., Belardi, V.G., Vivio, F., You, J.-H.

      Journal: Fatigue and Fracture of Engineering Materials and Structures

  • Effects of seismic isolation on the dynamic behaviour of the DTT torus complex during earthquake events

      Authors: Fulici, M., Belardi, V.G., Dalla Palma, M., Vivio, F., Fanelli, P.

      Journal: Fusion Engineering and Design

  • Bending theory of composite pressure vessels: A closed-form analytical approach

      Authors: Belardi, V.G., Ottaviano, M., Vivio, F.

      Journal: Composite Structures

  • Structural Assessment of the DTT Cryostat Design

      Authors: Barone, G., Belardi, V., Palma, M.D., Polli, G.M., Vivio, F.

      Journal: IEEE Transactions on Plasma Science,

Tao Li | Civil Engineering | Best Researcher Award

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Dr. Tao Li – Civil Engineering – Best Researcher Award

Nanjing Tech University | China

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Scopus

 

📍Current Position

Tao Li is actively serving as a Teaching Assistant at the College of Civil Engineering, Nanjing Tech University. His responsibilities involve assisting Assistant Professor Zhi Li in teaching “Structural Design of Steel Buildings” from September 2017 to January 2018. This role has allowed him to merge academic theories with real-world engineering challenges, providing students with valuable insights into the subject.

 

📝Publication Achievements 

Tao Li has contributed to both conference publications and journal articles. His key papers include:

Screwed Connections in Light-gauge Steel Frame Shear Walls Sheathed with Ply-Bamboo Panels presented at the 9th International Conference on Steel and Aluminium Structures ICSAS19 (Indexed by SCI).

Behavior of Screwed Connections in Stainless Steel Frame Shear Walls sheathed with ply-bamboo panels, published in Modern Engineered Bamboo Structures (2020).
In journal publications, Tao has co-authored papers such as Research on an Unsymmetrical Prefabricated Hybrid Steel-Glubam Roof Truss published in Engineering Structures and Connections in Cold-formed Steel Frame Shear Walls Sheathed with Engineered Bamboo Panels in Journal of Constructional Steel Research.

 

🔍Ongoing Research

Tao Li’s ongoing research focuses on innovations in structural engineering, with a specific interest in bamboo and steel construction. His work is central to the development of sustainable and eco-friendly materials, aiming to enhance the structural integrity of buildings while reducing environmental impact.

 

🔬 Research Interests

Tao Li’s research interests are broad and interdisciplinary, encompassing:

Structural design of bamboo and steel hybrid constructions

Light-gauge steel frame shear walls

Sustainable construction materials

Advanced structural analysis techniques

 

🎓Academic Background

Tao Li holds a M.Sc. in Structural Engineering from Nanjing Tech University (2017-2020), where he earned an exam-free postgraduate admission due to his academic excellence. Prior to this, he received a B.Sc. in Civil Engineering (2013-2017) from the same university, ranking in the top 3% among his peers. Tao also pursued a B.Sc. in Engineering Cost Management, graduating with a strong academic record.

 

🏆Scholarships and Awards 

National Endeavor Scholarship

First-Class Scholarship (seven times)

Principal Special Scholarship

Outstanding Contribution Award at the 2019 International Bamboo Construction Competition

 

🧬Bioinformatics 

In the realm of bioinformatics, Tao Li has explored the integration of engineering principles with data science. His structural analysis techniques have applications in bioinformatics, particularly in analyzing the physical structures of materials at a molecular level, making contributions to sustainable construction.

 

🌐Professional Associations 

Tao Li is an active member of various professional associations, contributing to the scientific community through his participation in conferences such as the 9th International Conference on Steel and Aluminium Structures and his role on the editorial board of “Engineered and Industrialized Bamboo Structures.”

 

 📚Training & Workshops 

Tao Li has participated in several workshops and training sessions, further honing his expertise in bamboo construction and structural innovation. His involvement in organizing competitions like the International Bamboo Construction Competition highlights his leadership and commitment to promoting knowledge sharing.

Oral Presentation

Tao Li has delivered several oral presentations at international conferences, notably presenting his research on screwed connections in steel and bamboo structures at prestigious events like the ICSAS19.

 

🎤Oral Presentations and🗣️Thought Leadership 

He also excels in scientific communication, delivering impactful oral presentations on his research findings.

 

🧑‍🔬Tasks Completed as a Researcher 

Tao Li has been involved in multiple national research projects, including a project on Fracture Behavior of Structural Glued Bamboo, for which he served as a Working Group Member. His work focuses on material behavior under stress and offers practical applications for future construction technologies.

 

🚀Success Factors 

Tao Li’s success as a researcher and educator stems from his ability to blend theoretical knowledge with practical applications. His persistence, attention to detail, and collaborative spirit are key factors that have contributed to his accomplishments in the field.

 

🧪Publications & Laboratory Experience

In addition to his publications, Tao Li holds several patents related to steel-bamboo hybrid constructions. His hands-on experience in the lab, coupled with his innovations in structural materials, has made a significant impact on the industry.

 

🔍 Conclusion

Tao Li, M.Sc., is a promising figure in the world of structural engineering. His research, publications, and patents have contributed to the advancement of sustainable construction technologies, particularly through the innovative use of bamboo and steel. Tao’s dedication to education and research positions him as a leader in civil engineering, poised to influence the future of the built environment.

📚Publications

Connections in stainless steel frame shear walls sheathed with ply-bamboo panels

               Authors: Wu, Q., Li, T., Yue, Z., Wang, Z., Wang, L.

               Journal : Journal of Constructional Steel Research

Evaluation of mechanical and microscopic properties of magnesium phosphate cement-based concrete with different fly ash additions

           Authors: Yao, Y., Zhang, J., Yao, Z., Lu, T., Liu, X.

          Journal : Journal of Building Engineering

Influence of wood species and natural aging on the mechanics properties and microstructure of wood

            Authors: Zhang, J., Li, T., Lu, W., Chen, X., Song, F.

             Journal :Journal of Building Engineering

Optimization of mix proportion and strength prediction of magnesium phosphate cement-based composites based on machine learning

              Authors: Zhang, J., Li, T., Yao, Y., Du, H., Yang, J.

              Journal :  Construction and Building Materials

Effect of Steel Fiber on Mechanical Properties and Microstructure of Magnesium Phosphate Cement-Based Concrete Exposed to Water and Sulfate Attack

             Authors: Zhang, J., Yang, H., Hu, X., Hong, W., Gong, S.

               Journal : Journal of Materials in Civil Engineering,

 

 

Josep M. Rossell | Engineering | Lifetime achievement Award

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Prof Dr. Josep M. Rossell – Engineering  – Lifetime achievement Award

Universitat Politècnica de Catalunya (UPC) | Spain

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📍Current Position

Josep M. Rossell is a highly esteemed Full Professor at the Universitat Politècnica de Catalunya (UPC), specifically within the Department of Mathematics. Since receiving his PhD in Applied Mathematics in 1998, he has established himself as a central figure in the world of mathematical research and applied control systems. His academic tenure at UPC spans decades, where he has mentored countless students, led numerous research projects, and contributed significantly to both the institution and the field of applied mathematics. Rossell is also an integral part of the CoDAlab group, an interdisciplinary research hub that connects applied mathematics, systems control theory, and engineering, which showcases his collaborative and interdisciplinary approach to research.

 

📝Publication Achievements 

Rossell has published more than 200 papers in reputable journals and international conference proceedings. These publications reflect his in-depth exploration into complex mathematical problems related to control systems and large-scale optimizations. Some of his notable works have been featured in Mathematical Problems in Engineering and the Journal of the Franklin Institute, where he serves as an Associate Editor. His role as Guest Editor for several other leading journals has allowed him to shape the discourse in applied mathematics and control systems, ensuring that pioneering research continues to be published.

 

🔍Ongoing Research

Prof. Rossell’s ongoing research focuses on key areas such as the robust control of decentralized systems, parallel robots, and large-scale systems. His research aims to tackle challenges in systems engineering by designing control systems that are resilient to uncertainties, making them more robust and adaptable to dynamic environments. These systems have direct implications for industries that require precise control mechanisms, such as robotics and automation.

 

🔬 Research Interests

Large-scale Systems: He delves into the mathematical modeling and control of complex systems that consist of numerous interacting components.

Decentralized Control: His work on decentralized systems examines how individual controllers can operate independently while ensuring the overall system remains stable and efficient.

Robust Control: Rossell is particularly focused on systems that are resilient to uncertainties and disturbances, ensuring reliable performance even under challenging conditions.

Parallel Robots: These robotic systems, often used in industrial automation, benefit from Rossell’s work on dynamics, optimization, and control strategies.

 

🎓Academic Background

Josep M. Rossell received his PhD in Applied Mathematics in 1998 from the Universitat Politècnica de Catalunya (UPC), located in Barcelona, Spain. His academic journey through mathematics laid a solid foundation for a career focused on cutting-edge research in control systems and large-scale system optimization. As a Full Professor in the Department of Mathematics at UPC, he has been a prominent figure in the field, contributing extensively to applied mathematics, especially in decentralized control and robust systems.

 

🏆Scholarships and Awards 

Throughout his career, Prof. Rossell has been recognized for his contributions to applied mathematics and control theory. His accolades include invitations to serve as Guest Editor for high-profile journals like Mathematical Problems in Engineering and Journal of Abstract and Applied Analysis. These roles highlight his reputation as a leader in his field. Additionally, his involvement in international symposia and conferences further underscores the global recognition of his work.

 

🧬Bioinformatics 

Rossell’s primary research does not explicitly focus on bioinformatics, his work in decentralized control and system optimization often intersects with data-driven fields. His mathematical models and control strategies can be adapted to various domains, including computational biology and healthcare technology, demonstrating the wide-ranging impact of his expertise.

 

🌐Professional Associations 

Prof. Rossell is deeply involved in the academic community through various roles in professional associations and committees. He has served as a Member of the Advisory Committee for the 2013 International Symposium on Control Applications and Automation Systems (ISCAAS) in Norway, and as a Member of the Conference Operations Committee for the Sixth World Conference on Structural Control and Monitoring (6WCSCM) held in Barcelona in 2014. His commitment to these events illustrates his dedication to advancing knowledge and fostering collaboration within the international scientific community.

 

 📚Training & Workshops 

He has also participated in workshops aimed at training professionals and researchers in the field of control systems. His engaging presentation style, combined with his vast knowledge, makes him a sought-after speaker in the field of applied mathematics and control theory.

 

🎤Oral Presentations and🗣️Thought Leadership 

Rossell has been a keynote speaker at numerous international conferences, where he has presented on topics ranging from robust control systems to parallel robotics. His presentations are recognized for their depth, innovation, and their ability to connect theoretical concepts with practical applications.

 

🧑‍🔬Tasks Completed as a Researcher 

As a researcher, Rossell has completed extensive work in large-scale system modeling, control theory, and decentralized system optimization. His research is not only theoretical but also practical, with applications in robotics, energy systems, and industrial automation. The work he has done has been incorporated into projects that improve parallel robot control systems, contributing to advancements in automation and robotics.

 

🚀Success Factors 

Rossell’s success as a researcher and educator stems from his ability to translate complex mathematical theories into practical solutions. His leadership in the CoDAlab group, combined with his robust publication record, reflects his ongoing commitment to pushing the boundaries of control systems and applied mathematics. His work has had a significant impact on the fields of decentralized control and robust system optimization, and he continues to drive research that addresses pressing challenges in these areas.

 

🧪Publications & Laboratory Experience

Rossell’s publication record is complemented by his extensive laboratory experience, particularly in designing and testing control systems and parallel robotics. His hands-on approach ensures that his theoretical work is grounded in practical experimentation and real-world applications.

 

🔍 Conclusion

Prof. Josep M. Rossell’s contributions to applied mathematics and control theory are vast and impactful. As a Full Professor at UPC and an active member of the CoDAlab group, he has fostered an interdisciplinary approach that bridges mathematics and engineering. His extensive publication record, coupled with his involvement in international conferences and editorial boards, highlights his role as a key thought leader in his field. Going forward, Rossell’s work will continue to shape the future of control systems and applied mathematics, contributing to both academic advancements and real-world solutions.

📚Publications

Magnetic Levitation: An Academic Prototype

      Authors: Josep M. Rossell; Víctor Barcons

      Journal: Applied Sciences 

Architecting an Open-Source IIoT Framework for Real-Time Control and Monitoring in the Bioleaching Industry

      Authors:Marta I. Tarrés-Puertas; Lluís Brosa; Albert Comerma; Josep M. Rossell; Antonio D. Dorado

      Journal: Applied Sciences 

Child–Robot Interactions Using Educational Robots: An Ethical and Inclusive Perspective

      Authors:Marta I. Tarrés-Puertas; Vicent Costa; Montserrat Pedreira Alvarez; Gabriel Lemkow-Tovias; Josep M. Rossell; Antonio D. Dorado

      Journal: Sensors

Sparking the Interest of Girls in Computer Science via Chemical Experimentation and Robotics: The Qui-Bot H2O Case Study

        Authors:Marta I. Tarrés-Puertas; Jose Merino; Jordi Vives-Pons; Josep M. Rossell; Montserrat Pedreira Álvarez; Gabriel Lemkow-Tovias; Antonio D. Dorado

       Journal: Sensors

Analysis of Occupational Accidents in the Spanish Mining Sector in the Period 2009–2018

      Authors:Lluís Sanmiquel; Marc Bascompta; Josep M. Rossell; Hernan Anticoi

      Journal: International Journal of Environmental Research and Public Health 

         

Yuhong Liu | Tribology | Best Researcher Award

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Prof. Yuhong Liu – Tribology – Best Researcher Award

State Key Laboratory of Tribology in Advanced Equipment, Tsinghua University | China

      Profiles

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📍Current Position

Yuhong Liu serves as an Associate Professor at the State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University. Since 2013, she has been a full-time professor, continuing to lead innovative research and mentor the next generation of engineers. Her role involves conducting cutting-edge research in tribology, with a focus on nanotechnology and lubrication techniques. His extensive work in tribology has earned him an esteemed position in both academic and industrial communities.

 

📝Publication Achievements 

Yuhong Liu has an impressive list of publications in high-impact journals. His work spans diverse topics, from surface science to tribology. Notable publications include: Chai Zhimin, Liu Yuhong, et al., “Reducing adhesion force by means of atomic layer deposition of ZnO films with nanoscale surface roughness” in ACS Applied Materials & Interfaces (2014). Pengxiao Liu, Yuhong Liu, et al., “Mechanism of Biological Liquid Superlubricity of Brasenia schreberi Mucilage” in Langmuir (2014). Chen Zhe, Liu Yuhong, et al., “Controllable Superlubricity of Glycerol Solution via Environment Humidity” in Langmuir (2013).

 

🔍Ongoing Research

Yuhong Liu’s research primarily focuses on nanotribology and surface science, with current projects investigating the applications of water-based lubrication and chemical-mechanical planarization (CMP). Her work aims to reduce friction and improve lubrication efficiency in complex mechanical systems using nanotechnology. He is also exploring nanostructures to develop new methods for CMP and surface lubrication.

 

🔬 Research Interests

Yuhong’s primary research interests lie in: Nanotribology 🔬: Study of friction, lubrication, and wear at the nanoscale. Surface & Interface Nanostructure: Focusing on how nanoscale structures affect mechanical properties. Chemical-Mechanical Planarization (CMP) 🧪: Investigating material removal mechanisms and synergy between chemical and mechanical processes. Water-based Lubrication 💧: Developing eco-friendly lubrication systems that utilize water instead of traditional oil-based lubricants.

 

🎓Academic Background

Yuhong Liu’s academic journey began with a Bachelor of Science (B.S.) in Chemistry from Tsinghua University in 2000. He then pursued a Ph.D. from the CAS Key Laboratory of Molecular Nanostructure & Nanotechnology, Institute of Chemistry, Chinese Academy of Sciences, which she completed in 2005. His Ph.D. research focused on the molecular nanostructure and its applications in tribology, setting the foundation for her later work in nanotechnology.

 

🏆Scholarships and Awards 

Over the years, Yuhong Liu has earned numerous accolades for her contributions to tribology and nanotechnology: Third Prize for Outstanding Poster at the National SPM’8 Conference in 2004 . Second Prize from the China Association for Instrumental Analysis in 2003 .

 

🧬Bioinformatics 

Though primarily focused on mechanical engineering, Yuhong Liu has integrated bioinformatics principles into her research. Her work on biological superlubricity explores how biological systems can achieve low friction under wet conditions, with potential applications in the medical field and biotribology.

 

🌐Professional Associations 

Yuhong Liu is actively involved in various professional associations, including: The Tribology Society of China. The International Association for Nanotechnology

 

 📚Training & Workshops 

Yuhong Liu has participated in and led numerous workshops on tribology and nanotechnology. His workshops cover topics such as CMP techniques, surface modification, and nano-lubrication. she has also been a guest lecturer at international conferences on tribology and nanotechnology.

 

🎤Oral Presentations and🗣️Thought Leadership 

Throughout his career, Yuhong Liu has delivered several keynote presentations on her work. His presentations often focus on superlubricity and surface science, and she is known for breaking down complex tribological phenomena into understandable concepts for both academic and industry audiences.

 

🧑‍🔬Tasks Completed as a Researcher 

As a researcher, Yuhong Liu has successfully completed various high-impact tasks, including: Conducting in-depth surface modification experiments  to explore friction reduction. Leading research projects on nanotribology, providing innovative solutions for chemical-mechanical planarization. Collaborating with industry partners to apply her research on water-based lubricants to real-world mechanical systems.

 

🚀Success Factors 

Yuhong Liu’s success in the field is largely attributed to: Innovative Thinking : His ability to apply nanotechnology concepts to tribology. Collaboration: Working with global experts to develop cross-disciplinary research. Dedication to Sustainability : her research on water-based lubrication is a testament to her commitment to environmentally friendly engineering solutions.

 

🧪Publications & Laboratory Experience

Her extensive laboratory experience includes working with atomic layer deposition, surface roughness analysis, and bio tribology experiments. Her publications highlight her technical expertise and research innovation, especially in areas such as: Nanoscale surface roughness. Biological super lubricity using Brasenia schreberi mucilage 🌿. Surface chemistry and tribological properties of super-hydrophobic surfaces

 

🔍 Conclusion

Yuhong Liu is a trailblazer in the fields of tribology and nanotechnology, combining cutting-edge research with practical applications. As an Associate Professor of Mechanical Engineering at Tsinghua University, her work continues to shape the future of surface science and lubrication technology. From his groundbreaking research on super lubricity to her eco-friendly approach to water-based lubrication, Yuhong Liu stands out as a leader committed to sustainability and innovation in mechanical engineering.

📚Publications

Simple and effective: Super lubricity behaviour of the G-quadruplex hydrogel with high selectivity for K+ ions based on the ocular environment

          Authors: Wang, H. Wu, J. Wang, K. Liu, Y. Zhang, J.
          Journal: Friction
A self-healing thermogelling polymer with tunable transparency based on biomolecule alginate grafting phenylboronic acid
          Authors: Wang, H. Wang, Q. Wang, K. Liu, Y. Zhang, J.
Self-Driven Gas Spreading on Mesh Surfaces for Regeneration of Underwater Super hydrophobicity
        Authors: Wang, J. Liu, Y.
Tough double-network hydrogels with excellent frictional properties based on the in-suit inhibition strategy for biomedical applications
        Authors: Wang, J. Li, X. Xu, Y. Song, J. Liu, Y.
Superlubricity Achieved by a Transparent Poly(vinylpyrrolidone) Composite Hydrogel with Glycerol Ethoxylate in Ocular Conditions
          Authors: Wang, H. Zhao, H. Wu, X. Liu, Y. Zhang, J.

Wang Peng | Engineering | Best Researcher Award

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Assist Prof Dr. Wang Peng – Engineering – Best Researcher Award

Huazhong Agricultural University | China

 Profiles 

  Scopus

📍Current Position

He is an Associate Professor at the School of Engineering, Huazhong Agricultural University. In addition, he serves as a Postdoc at the State Key Laboratory of Digital Manufacturing Equipment and Technology. His office is located in Room G307, New Engineering Building at the university.

📝Publication Achievements 

He has an impressive record of publications, contributing extensively to scientific literature. His work includes numerous articles in high-impact journals such as “Food Chemistry,” “Advanced Materials Technologies,” and “Biomaterials Research.Polyethyleneimine-modified photonic crystal microfluidic Chip for highly sensitive detection of microbial spores. Food Chemistry, 2024. Advances in Multifunctional Sensors Based on Triboelectric Nanogenerator–Applications, Triboelectric Materials, and Manufacturing Integration. Advanced Materials Technologies, 2024.Open source board based acoustofluidic transwells for reversible disruption of the blood–brain barrier for therapeutic delivery. Biomaterials Research, 2023.

🔍Ongoing Research 

His ongoing research projects highlight his focus on innovative technologies and practical applications. Self-powered sensing mechanism and device preparation based on Triboelectric Nanogenerator (2020/05-2023/04) with a budget of RMB 250,000.Multi-modal sensing mechanism and property modulation of flexible photonic crystal for robotic tactile sensing (2019/01-2021/12), funded with RMB 250,000.Self-powered Flexible and Stretchable Photonic Crystal Sensor for Robot Perception, a project supported by the Hubei Province Postdoc Project.

🔬Research Interests 

His research interests are diverse and interdisciplinary, focusing on : Micro/Nano Manufacturing Technologies, Flexible Photonics, Wearable Sensing Devices, Robotic Tactile Sensing, Biosensors, Triboelectric Nanogenerators, Flow Cytometers.

🎓Academic Background 

His academic journey is marked by prestigious institutions and diverse fields of study: Joint PhD at the School of Computer Science and Engineering, University of Illinois at Urbana and Champaign (UIUC), USA (2014.02 – 2016.05) PhD in Mechatronic Engineering from the School of Mechanical Science and Engineering, HUST Wuhan, China (2010.09 – 2017.04).  BA in English from the School of Foreign Languages, HUST Wuhan, China (2008.09 – 2010.06). BE in Mechanical Engineering and Automation from the School of Mechanical and Electronic Engineering, WUT Wuhan, China (2006.09 – 2010.07)

🏆Scholarships and Awards 

He has received numerous scholarships and awards throughout his career, including: innovative Talent International Cooperation Training Project (2020) by the China Scholarship Council. Joint PhD Training Program (China & USA) (2014.02 – 2016.05). Second Prize in Hubei University Student Entrepreneurship Competition (2013.09), awarded 150,000 RMB.

🌐Professional Associations 

He is a Senior Member of the Chinese Society of Micro and Nano Technology, reflecting his active engagement with the professional community. His involvement in bioinformatics is demonstrated through his research on biosensors and data analysis, contributing to the advancement of biological and medical research.

 📚Training & Workshops 

Throughout his career, He has participated in numerous training programs and workshops, enhancing his expertise and staying updated with the latest advancements in his field. His training includes participation in international research collaborations and advanced technology workshops.

🎤Oral Presentations 

He has delivered several oral presentations at international conferences, showcasing his research findings and contributing to the global scientific community. His presentations are known for their depth, clarity, and innovative insights.

🧑‍🔬Tasks Completed as a Researcher 

As a researcher, he has successfully completed various tasks, including: Design and fabrication of advanced sensing devices based on micro/nano photonics. Development of Triboelectric Nanogenerator-based devices. Implementation of MEMS technology for sensor fabrication.

🚀Success Factors 

He attributes his success to a combination of rigorous academic training, continuous learning, and a collaborative approach to research. His dedication to innovation and practical applications has earned him recognition and respect in the scientific community.

🧪Publications & Laboratory Experience

His extensive laboratory experience is highlighted by his hands-on work in designing and manufacturing photonic sensors, MEMS devices, and Triboelectric Nanogenerators. His publication record reflects his significant contributions to advancing these technologies, with numerous articles in high-impact journals.

📚Publications: