Xiaowen Dai | metal materials | Best Researcher Award

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Xiaowen Dai | metal materials | Best Researcher Award

Ms. XiaowenDai, Shandong universty, China

Xiaowen Dai is currently a graduate candidate at Shandong University, located in Jinan, China. She is pursuing her postgraduate studies in the School of Electrical Engineering under the guidance of Professor Xiaolong Wang at the School of Materials Science and Engineering. Her research focuses on 2D materials for rechargeable energy storage devices. Xiaowen began her postgraduate journey in September 2022 and is dedicated to advancing her knowledge and expertise in this cutting-edge field.

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Education and Experience 📚

Xiaowen Dai is currently a graduate candidate at the School of Materials Science and Engineering, Shandong University, under the supervision of Professor Xiaolong Wang. She has been pursuing her postgraduate studies since September 2022 at Shandong University, located in Jinan, China. Xiaowen’s research interests are primarily focused on the development and application of 2D materials for rechargeable energy storage devices. She brings her background from the School of Electrical Engineering to her current research, integrating interdisciplinary approaches to advance the field of energy storage technology.

Professional Development 🏆

Xiaowen Dai is currently a graduate candidate under the supervision of Professor Xiaolong Wang at the School of Materials Science and Engineering, Shandong University. Since September 2022, she has been focusing on her postgraduate studies in the School of Electrical Engineering. Her research interests are centered around 2D materials for rechargeable energy storage devices.

Research Focus 🔬

Xiaowen Dai’s research centers on the development and application of two-dimensional (2D) materials for use in rechargeable energy storage devices. This includes exploring the unique properties of 2D materials to enhance the performance, efficiency, and longevity of energy storage systems. Her work aims to contribute to the advancement of sustainable energy solutions by addressing key challenges in energy storage technologies. By investigating novel 2D materials and their interactions within energy storage devices, Xiaowen seeks to develop innovative approaches to improve the capacity, stability, and scalability of these systems, which are critical for the future of renewable energy infrastructure.

Publication 📚📝

Jung-Goo Lee | Magnetic materials | Best Researcher Award

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Dr. Jung-Goo Lee | Magnetic materials | Best Researcher Award

Principal Researcher at Korea Institute of Materials Science, South Korea.

Dr. Jung-Goo Lee is an accomplished professional with a robust background in Material Engineering, holding a Ph.D. and M.S. from Osaka University, Japan, and a B.S. from Sungkyunkwan University, Korea. He has made significant contributions to the field, particularly in Permanent Magnetic Materials, through extensive research and development. Dr. Lee holds key leadership positions including Vice President at The Korean Powder Metallurgy & Materials Institute and Chair of the Permanent Magnetics Committees at The Korean Magnetics Society. He also serves as a Visiting Professor at Hanyang University, where he imparts his knowledge and expertise. Recognized for his achievements, Dr. Lee has received several prestigious awards, including the National Top 100 R&D Performances in 2022 and honors from the Ministry of Science and ICT and the National Research Council of Science and Technology. His dedication to advancing magnetic materials technology underscores his commitment to innovation and academic excellence.

Publication Profile

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Education and Experience 📚

Dr. Jung-Goo Lee earned his Ph.D. in Material Engineering from Osaka University, Japan, in 2003, following his Master’s degree in the same field from the same university in 2001. He completed his undergraduate studies at Sungkyunkwan University in Korea, graduating with a Bachelor of Science in Material Engineering in 1998.

Professional Development 🏆

Dr. Jung-Goo Lee holds prominent roles in academia and professional organizations. He serves as Vice President of The Korean Powder Metallurgy & Materials Institute and chairs the Permanent Magnetics Committees at The Korean Magnetics Society. Additionally, Dr. Lee contributes to the field of education as a Visiting Professor at Hanyang University, where he shares his expertise and mentors students in his specialized areas of interest.

Research Focus 🔬

Dr. Jung-Goo Lee’s research interests primarily focus on Permanent Magnetic Materials. His work delves into the development, characterization, and application of these materials, aiming to advance their performance and functionality in various technological applications. Through his research, Dr. Lee contributes to the exploration of innovative solutions and advancements in the field of permanent magnets, addressing challenges and pushing the boundaries of material engineering and magnetism.

Award and Honors:

Dr. Jung-Goo Lee has received prestigious awards and honors for his outstanding contributions to research and development. In 2022, he was recognized with the National Top 100 R&D Performances award and received an award from the Ministry of Science and ICT for his significant achievements. Additionally, in 2021, Dr. Lee was honored with an award from the National Research Council of Science and Technology, further highlighting his impactful contributions to the field.

Publication 📚📝

Zuyong Yan | Design of Materials | Best Researcher Award

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Dr.Zuyong Yan | Design of Materials | Best Researcher Award

.Dr.Zuyong Yan , Lanzhou University of Technology, China.

Dr. Zuyong Yan is a distinguished academic affiliated with Lanzhou University of Technology in China. His expertise spans [mention areas of expertise, e.g., mechanical engineering, materials science], with significant contributions to [mention notable contributions, e.g., research on advanced materials, sustainable technologies]. Dr. Yan’s research is recognized internationally, and he actively contributes to the academic community through publications and collaborations. He plays a pivotal role in [mention any significant roles, e.g., research groups, editorial boards].

Publication Profile

Scopus

Education  :

Ph.D. in Electronic Science and Technology,Beijing University of Posts and Telecommunications, Beijing, Chin,2018-202,M.S. in Physical Electronics,Lanzhou University of Technology, Lanzhou, Gansu, China,2008-201,B.S. in Electronic Science and Technology,Shenyang Ligong University, Shenyang, Liaoning, China,2003-2007

Work Experience:

07/2022-present – School of Science, Lanzhou University of Technology, Lanzhou, Gansu, China,Details of responsibilities and projects undertaken are not specified,07/2011-08/2018 – China Unicom Gansu branch, Lanzhou, Gansu, China,Role and specific contributions not detailed.

Research Focus 🔬

  • Specialization: Solar-blind photodetectors based on β-Ga2O3 and other materials.
  • Key Areas: Design, fabrication, and characterization of photodetectors for solar-blind ultraviolet detection.
  • Contributions: Numerous publications and patents focusing on enhancing photodetector performance and efficiency

Skills:

Experimental Techniques: Expertise in materials characterization and device fabrication techniques relevant to optoelectronics.,Analytical Skills: Data analysis and interpretation related to photodetection performance metrics.,Technical Writing: Extensive experience in writing research papers and patents.

Awards and Recognitions:

  • Patents: 1 awarded and 1 pending patent related to photodetector technologies.
  • Publications: Over 40 journal and conference publications with significant citations and a respectable h-index of 15.
  • Conference Contributions: Presented over 5 plenary talks at conferences, demonstrating leadership in the field.

Publications 📚📝

  1. Investigation and Comparison of the Performance for β-Ga2O3 SolarBlind Photodetectors Grown on Patterned and Flat Sapphire Substrate
    Published in Crystals, 2024. This study compares the performance of β-Ga2O3 photodetectors grown on patterned versus flat sapphire substrates.
  2. Enhanced back-illuminated Ga2O3-based solar-blind ultraviolet photodetectors
    Accepted in Science China Technological Sciences. This article discusses improvements in back-illuminated Ga2O3-based UV photodetectors.
  3. Ti3C2/ε-Ga2O3 Schottky Self-Powered Solar-Blind Photodetector with Robust Responsivity
    Published in IEEE Journal of Selected Topics in Quantum Electronics, 2022. It presents a self-powered solar-blind photodetector based on Ti3C2/ε-Ga2O3 Schottky junction.
  4. Reinforcement of double built-in electric fields in spiro-MeOTAD/Ga2O3/Si p–i–n structure for a high-sensitivity solar-blind UV photovoltaic detector
    Published in Journal of Materials Chemistry C, 2021. Focuses on enhancing sensitivity in solar-blind UV photodetectors using spiro-MeOTAD/Ga2O3/Si structure.
  5. A SpiroMeOTAD/Ga2O3/Si p-i-n Junction Featuring Enhanced Self-Powered Solar-Blind Sensing via Balancing Absorption of Photons and Separation of Photogenerated Carriers
    Published in ACS Applied Materials & Interfaces, 2021. Discusses a junction design for improved solar-blind sensing.
  6. High sensitivity and fast response self-powered solar-blind ultraviolet photodetector with a β-Ga2O3/spiro-MeOTAD p–n heterojunction
    Published in Journal of Materials Chemistry C, 2020. Details a high-sensitivity UV photodetector using a β-Ga2O3/spiro-MeOTAD junction.

 

Zuyong Yan | Ga2O3 | Best Researcher Award

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Zuyong Yan | Ga2O3 | Best Researcher Award

Dr.Zuyong Yan ,Dr.Zuyong Yan, China.

Dr.Zuyong Yan is a dedicated researcher at Lanzhou University of Technology, specializing in electronic science and technology. With a Ph.D. from Beijing University of Posts and Telecommunications, he has authored over 40 publications and holds patents in solar-blind photodetectors. His work focuses on enhancing the performance of Ga2O3-based devices, contributing significantly to the fields of physical electronics and photonics. Yan’s research, recognized globally with over 700 citations, underscores his commitment to advancing self-powered UV photodetection technologies. 🌟🔬

Publication Profile

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Education and Experience 📚

Dr. Zuyong Yan completed his Ph.D. in electronic science and technology at Beijing University of Posts and Telecommunications from 2018 to 2022. Prior to his doctoral studies, he earned his M.S. in physical electronics at Lanzhou University of Technology and his B.S. in electronic science and technology at Shenyang Ligong University. He has since been actively engaged in research and academia, currently serving as a researcher at Lanzhou University of Technology and having previously worked at China Unicom Gansu branch.

Professional Development 🏆

Dr.Yan is a member of the Chinese Institute of Electronics and actively contributes to the academic community as a referee for esteemed journals such as Materials Today Physics, Applied Surface Science, and Photonics Technology Letters. His expertise is recognized with over 52 documents published, including numerous high-impact papers and patents in the field of Ga2O3-based solar-blind photodetectors.

Research Focus 🔬

Dr. Yan’s research focuses on advancing the performance of Ga2O3-based devices, particularly in the realm of solar-blind photodetection. He explores topics such as defect engineering, surface plasmon resonance, and electro-optical effects in optical fibers. His contributions aim to enhance the sensitivity and efficiency of photonic devices for applications ranging from biomedical sensors to telecommunications.

Publications 📚📝

Elżbieta Pieczyska | Mechanics | Best Researcher Award

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Elżbieta Pieczyska | Mechanics | Best Researcher Award

Prof.Dr.Elżbieta Alicja Pieczyska , Institute of Fundamental Technological Research (IPPT PAN), Poland.

🌟Prof.Dr.Elżbieta Alicja Pieczyska, D. Sc., is a distinguished Full Professor at the Institute of Fundamental Technological Research (IPPT PAN), Polish Academy of Sciences. She obtained her Ph.D. in 1998 and later earned her D.Sc. from IPPT PAN in 2010. Recognized for her contributions, she was appointed as a Full Professor in 2021 through a special procedure by the President of Poland. Professor Pieczyska is known for her expertise in multifunctional materials and structures, particularly in investigating the mechanical and thermomechanical properties of advanced alloys and polymers.

Publication Profile

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Education and Experience 📚

Dr.Elżbieta Pieczyska’s academic journey includes a postdoctoral tenure at the AICHI Institute of Technology in Japan from 2004 to 2006. Throughout her career, she has supervised several doctoral theses and PhD student theses, focusing on topics such as shape memory alloys and polymers. Her leadership extends to being a member of the IPPT PAN Scientific Council and heading the Division of Applied Thermomechanics at the Department of Experimental Mechanics.

Professional Development 🏆

Professor Pieczyska has authored numerous scientific papers published in prestigious journals and has co-authored several books and book chapters. She has also coordinated and participated in over 25 research projects, collaborating extensively with institutions in Japan, Hong Kong, Korea, and Europe. Her international recognition includes invited lectures at prominent conferences and universities worldwide, emphasizing her impact on shaping the field of experimental mechanics and materials science.

Research Focus 🔬

Her research focuses on the characterization of novel materials like shape memory alloys (TiNi) and shape memory polymers (SMP), exploring their applications in smart biomedical actuators and 3D printing. She investigates the mechanical behaviors of these materials under various loading conditions, contributing significantly to the understanding of their functional properties and potential industrial applications.

Elżbieta Alicja Pieczyska continues to pioneer advancements in materials science through her interdisciplinary research and leadership in experimental mechanics, solidifying her reputation as a key figure in the global scientific community.

Publications 📚📝

  • Full-Field Deformation Study of Ti–25Nb, Ti–25Nb–0.3O and Ti–25Nb–0.7O Shape Memory Alloys During Tension Using Digital Image Correlation 📚 (2024) – 0 Citations
  • Investigation of Shape Memory Polyurethane Properties in Cold Programming Process Towards Its Applications 📚 (2024) – 1 Citation
  • Investigating a shape memory epoxy resin and its application to engineering shape-morphing devices empowered through kinematic chains and compliant joints 📚 (2023) – 4 Citations
  • Energy Storage and Dissipation in Consecutive Tensile Load-Unload Cycles of Gum Metal 📚 (2023) – 4 Citations
  • Polyurethane shape memory polymer: structure characterization and estimation of energy storage and dissipation during the tension process 📚 (2023) – 0 Citations
  • Experimental study of thermomechanical behaviour of Gum Metal during cyclic tensile loadings: the quantitative contribution of IRT and DIC 📚 (2023) – 5 Citations
  • Characterization of Polyurethane Shape Memory Polymer and Determination of Shape Fixity and Shape Recovery in Subsequent Thermomechanical Cycles 📚 (2022) – 22 Citations
  • INFLUENCE OF THE STRAIN RATE ON THE MECHANICAL AND STRUCTURE CHARACTERISATION OF GUM METAL 📚 (2022) – 0 Citations
  • Quasi-Static and Dynamic Compressive Behavior of Gum Metal: Experiment and Constitutive Model 📚 (2021) – 3 Citations

Lorena Deleanu | Tribology | Best Researcher Award

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Lorena Deleanu | Tribology | Best Researcher Award

Prof.Dr.Lorena Deleanu , Dunarea de Jos  University, Romania.

Prof.Dr.Lorena Deleanu is a distinguished Romanian professor at the “Dunarea de Jos” University of Galati, specializing in Mechanical Engineering. With expertise in tribology, polymeric materials, and standardization, she has guided numerous PhD and post-doctoral researchers. As the Vice President of the Romanian Standards Association and a member of the Technical Sciences Academy of Romania, Lorena contributes significantly to engineering education and research. She is also an accomplished editor and reviewer for various scientific journals. Lorena holds a PhD in Engineering Sciences and a Master’s in Management Strategies. Fluent in English and French, she excels in international collaborations. 🌟📘🔧

Publication Profile

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🎓 Education:

Dr.Lorena Deleanu holds a PhD in Engineering Sciences, specializing in Tribology, from “Dunarea de Jos” University of Galati, where she also completed her undergraduate and master’s studies. Her academic journey includes obtaining a master’s diploma in “Strategies and Politics for Management” and various certifications in quality management and linguistic competence.

👩‍🏫 Experience:

Dr.Deleanu has been with “Dunarea de Jos” University since 1986, progressing from assistant to professor in the Faculty of Mechanical Engineering. She has extensive teaching experience in courses such as Machine Elements, Tribology, and Standardization. Additionally, she has held positions as a design engineer at IPROMET Bucharest and a technological engineer at the Metallurgical Plant Galati.

📈 Professional Development:

Prof. Lorena Deleanu is actively involved in the research community, contributing to projects on lubricant testing, tribological behavior of polymers, and non-destructive analysis. She is a correspondent member of the Technical Sciences Academy of Romania and serves as the vice president of the Romanian Standards Association (ASRO). Her editorial contributions include co-editing and reviewing for various scientific journals, ensuring the dissemination of high-quality research.

🔬 Research Focus:

Dr.Deleanu’s research is centered on the tribology of polymeric materials, exploring the wear and friction properties of polymers and their composites. Her work also delves into the additivation of vegetal oils to improve their tribological performance and the impact resistance of materials under ballistic and low-velocity conditions. Through her research, she aims to enhance the understanding and application of polymeric materials in various engineering contexts.

Publications 📚📝

Guillermo Riveros | computational | Best Researcher Award

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Guillermo Riveros | computational | Best Researcher Award

Dr. Guillermo A. Riveros, U.S. Army Engineer Research and Development Center, United States.

Dr. Guillermo A. Riveros is a Research Civil Engineer at the U.S. Army Engineer Research and Development Center (ERDC) in Vicksburg, United States. Since 1992, he has been a subject matter expert in areas such as Water Resources Infrastructure, Fatigue and Fracture Mechanics, Computational Fluid and Solid Mechanics, Structural Assessment of Aging Infrastructure, Bio-inspired Material Engineering, and Large Scale Additive Manufacturing. His innovative research has led to significant advancements in both civil and military engineering fields. 🏗️🔬🌊⚙️

Publication Profile

Scopus

Education and Experience

Dr. Riveros received his BS and MS in Civil Engineering from the University of Puerto Rico at Mayagüez. He also earned an MS in Engineering Mechanics from Mississippi State University and a Ph.D. in Civil Engineering from the University of Missouri-Columbia. He has been with the ERDC since 1992, where he has significantly contributed to advancements in engineering computational modeling and analysis. 🎓📚🛠️

Professional Development

Throughout his career, Dr. Riveros has focused on developing innovative methods for fatigue and corrosion repairs using fiber-reinforced polymers, assessing military infrastructure, and exploring bio-inspired materials like Paddlefish. His work combines field measurements with sophisticated 3D finite element analysis to improve the longevity and efficiency of critical structures. 🧠🔧🛡️

Research Focus

 Dr. Riveros’s research includes cutting-edge areas such as computational and experimental mechanics of tainter gates and miter gates, fatigue and fracture mechanics, and bio-inspired material engineering. He aims to keep pace with rapid scientific and technological developments, producing tools and models that advance civil, military, and environmental research. 🌍🔍⚡

Publications 📚📝

  • Deep Learning-Based Super Resolution Applied to Finite Element Analysis of Fused Deposition Modeling 3D Printing, 2024. 📄🤖
  • Prediction of air filtration efficiency and airflow resistance of air filter media using convolutional neural networks and synthetic data derived from simulated media, 2023. 📄🌬️
  • Multi-axial fatigue behavior of high-strength structural bolts, 2023. 📄🔩
  • Stabilized Electrospun Polyacrylonitrile Fibers for Advancements in Clean Air Technology, 2023. 📄🌫️
  • Alternative High-Performance Fibers for Nonwoven HEPA Filter Media, 2023. 📄🧵
  • Modeling uniform random distributions of nonwoven fibers for computational analysis of composite materials, 2022. 📄📊
  • Basalt Fibers for Underwater Fatigue Repair of Steel Panels, 2022. 📄🌊
  • The effects of deteriorated boundary conditions on horizontally framed miter gates, 2022. 📄🚧
  • Digital twin geometry for fibrous air filtration media, 2021. 📄💡
  • Fiber selection for reinforced additive manufacturing, 2021. 📄🖨️

Prof. Margherita Fabbri | Modifying Awards | Best Researcher Award | 9343

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Prof. Margherita Fabbri | Modifying Awards | Best Researcher Award

Prof. Margherita Fabbri , CHU PURPAN , France

Margherita Fabbri, an accomplished neurologist and researcher, holds an MD from the University of Bologna, Italy, where she graduated with top honors. She further specialized in neurology and earned a PhD with distinction from the Faculty of Medicine at the University of Lisbon, Portugal. Her academic journey includes a Master’s in Pharmacoepidemiology from the Faculty of Bordeaux, France. Currently based at the University of Toulouse, France, Margherita serves as an Associate Professor and contributes significantly to the Movement Disorders Group at CHU Toulouse. Her research focuses on advanced Parkinson’s Disease therapies, pharmacoepidemiology, and innovative treatments for Multiple System Atrophy. With over 100 papers published in peer-reviewed journals and an H-Index of 25, Margherita is dedicated to advancing clinical care and understanding in neurology, marked by her leadership in international professional societies

Professional Profile:

Google Scholar

 

🎓Education:

  1. MD (Medical Degree)
    • Year: 2007
    • Degree granting institution: University of Bologna, Italy
    • Final grade: 110 cum laude/110 cum laude
  2. Specialization in Neurology
    • Year: 2015
    • Degree granting institution: University of Bologna, Italy
    • Final grade: 70 cum laude/70 cum laude
  3. PhD
    • Year: 2019
    • Faculty of Medicine, University of Lisbon, Portugal
    • Degree: Praise with distinction (maximum score)
  4. Master in Pharmacoepidemiology
    • Year: 2022
    • Faculty of Bordeaux, France
    • Final grade: 17/20

🏢Professional Career:

  • Neurologist
    • Institution: Movement Disorders Group, Clinical Investigation Centre, University of Toulouse 3, CHU of Toulouse, INSERM, Toulouse, France
    • Starting Date: March 2020
  • Associate Professor
    • Institution: University of Toulouse, France
    • Starting Date: September 2023

🔬Research Interests:

  1. Device-aided therapies for advanced Parkinson’s Disease
  2. Pharmacoepidemiology
  3. Late-stage Parkinson’s disease and multidisciplinary care
  4. Multiple system atrophy (MSA): new therapies and non-pharmacological treatments
  5. Clinical trials in movement disorders (PD and MSA)

Publication Top Notes:

  • The modern pre-levodopa era of Parkinson’s disease: insights into motor complications from sub-Saharan Africa
    • Authors: R Cilia, A Akpalu, FS Sarfo, M Cham, M Amboni, E Cereda, M Fabbri, …
    • Cited By: 334
  • Amantadine in the treatment of Parkinson’s disease and other movement disorders
    • Authors: O Rascol, M Fabbri, W Poewe
    • Cited By: 113
  • Neutralizing antibody and botulinum toxin therapy: a systematic review and meta-analysis
    • Authors: M Fabbri, G Leodori, RM Fernandes, R Bhidayasiri, MJ Marti, C Colosimo, …
    • Cited By: 110
  • Opicapone for the treatment of Parkinson’s disease: a review of a new licensed medicine
    • Authors: M Fabbri, JJ Ferreira, A Lees, F Stocchi, W Poewe, E Tolosa, O Rascol
    • Cited By: 98
  • Do patients with late-stage Parkinson’s disease still respond to levodopa?
    • Authors: M Fabbri, M Coelho, D Abreu, LC Guedes, MM Rosa, N Costa, A Antonini, …
    • Cited By: 77

 

 

 

Prof. Dr. Qingquan Lu | Electroorganic Awards | Best Researcher Award

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Prof. Dr. Qingquan Lu | Electroorganic Awards | Best Researcher Award

Prof. Dr. Qingquan Lu , The Institute for Advanced Studies (IAS), Wuhan University , China

Prof. Dr. Qingquan Lu is a distinguished researcher and academic affiliated with the Institute for Advanced Studies at Wuhan University, China. His expertise lies in Electroorganic Synthesis, Transition Metal Catalysis, Radical Chemistry, and AI Chemistry. He earned his Ph.D. from Wuhan University under the guidance of Prof. Aiwen Lei, following which he pursued postdoctoral research at Münster University, Germany, under Prof. Frank Glorius, and at Washington University in St. Louis, USA, under Prof. Kevin D. Moeller. Prof. Lu’s scholarly contributions have been recognized with prestigious honors, including the Best PhD Dissertation Award in Hubei Province, China, and the Alexander von Humboldt-Fellowship in Germany. His research endeavors continue to advance the frontiers of chemistry, particularly in catalysis and organic synthesis, making significant impacts both nationally and internationally.

Professional Profile:

Scopus

Google Scholar 

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🎓Education:

Prof. Dr. Qingquan Lu completed his educational journey with a strong focus on chemistry. He earned his Ph.D. from Wuhan University in Wuhan, P.R. China, under the guidance of Prof. Aiwen Lei from September 2011 to December 2014. Prior to that, he obtained his M.S. degree at the University of Science and Technology of China in P.R. China, from September 2008 to June 2011, under the mentorship of Prof. Guan-Wu Wang. These academic pursuits laid a robust foundation for his subsequent career in research and academia, specializing in fields such as Electroorganic Synthesis, Transition Metal Catalysis, Radical Chemistry, and AI Chemistry.

🏢Professional Career:

Prof. Dr. Qingquan Lu has garnered extensive research experience across prestigious institutions globally. Since May 2019, he has served as a Professor at the Institute for Advanced Studies at Wuhan University, P. R. China. Prior to this appointment, from September 2018 to April 2019, he conducted postdoctoral research at Washington University in St. Louis, USA, under the guidance of Prof. Kevin D. Moeller. Earlier, from March 2015 to September 2018, he held a postdoctoral position at Münster University in Germany, working under the supervision of Prof. Frank Glorius. These roles have significantly enriched his expertise in Electroorganic Synthesis, Transition Metal Catalysis, Radical Chemistry, and AI Chemistry, contributing to his stature as a distinguished researcher in the field of chemistry.

🏆Honors & Awards:

Prof. Dr. Qingquan Lu’s significant contributions to the field of chemistry have been acknowledged with multiple prestigious awards. In 2017, he received the Best PhD Dissertation Award in Hubei Province, China, recognizing his outstanding doctoral research. His academic achievements were further highlighted in 2014 when he was awarded the Alexander von Humboldt-Fellowship in Germany, a testament to his international scholarly impact. Additionally, he was named a Reaxys PhD Prize Finalist by Elsevier Properties SA in the same year, underscoring his research excellence. In 2013, Prof. Lu earned The Outstanding Prize of Baosteel Scholarship from the Baosteel Education Foundation and the National Scholarship for Outstanding PhD Students from the Ministry of Education, P.R. China, affirming his academic prowess and dedication to advancing the field of chemistry through innovative research and scholarly pursuits.

Publication Top Notes:

  • Dioxygen-triggered oxidative radical reaction: direct aerobic difunctionalization of terminal alkynes toward β-keto sulfones
    • Authors: Q Lu, J Zhang, G Zhao, Y Qi, H Wang, A Lei
    • Cited By: 489
  • Aerobic oxysulfonylation of alkenes leading to secondary and tertiary β-hydroxysulfones.
    • Authors: Q Lu, J Zhang, F Wei, Y Qi, H Wang, Z Liu, A Lei
    • Cited By: 401
  • Redox‐Neutral Manganese (I)‐Catalyzed C− H Activation: Traceless Directing Group Enabled Regioselective Annulation
    • Authors: Q Lu, S Greßies, S Cembellín, FJR Klauck, CG Daniliuc, F Glorius
    • Cited By: 171
  • Manganese-catalyzed allylation via sequential C–H and C–C/C–Het bond activation
    • Authors: Q Lu, FJR Klauck, F Glorius
    • Cited By: 164
  • Manganese (I)‐Catalyzed Regioselective C− H Allenylation: Direct Access to 2‐Allenylindoles
    • Authors: Q Lu, S Greßies, FJR Klauck, F Glorius
    • Cited By: 155

 

 

 

 

 

Mr. Haonan Hu | Robotics Awards | Best Researcher Award

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Mr. Haonan Hu | Robotics Awards | Best Researcher Award

Mr. Haonan Hu , Sun Yat-sen University , China

Mr. Haonan Hu is currently affiliated with Sun Yat-sen University in China, where he is actively pursuing his academic and professional endeavors. He has established a notable academic background, having completed his undergraduate and postgraduate studies at prestigious institutions. His research interests span across various domains, including but not limited to computer science, artificial intelligence, and machine learning. Mr. Hu has engaged in significant research projects, contributing to advancements in these fields. His dedication to academic excellence is complemented by practical experience gained through internships and collaborations with industry partners. Mr. Haonan Hu continues to make valuable contributions to his university and the broader academic community, demonstrating a commitment to pushing the boundaries of knowledge in his chosen disciplines.

Professional Profile:

Scopus

🎓Education:

Mr. Haonan Hu is currently affiliated with Sun Yat-sen University in China, where he is actively pursuing his academic and professional endeavors. He completed his undergraduate and postgraduate studies at prestigious institutions, focusing on computer science, artificial intelligence, and machine learning. His academic journey has equipped him with a strong foundation in these fields. Mr. Hu has actively contributed to significant research projects, leveraging his expertise to advance knowledge in computer science and related disciplines.

🏢Experience:

His practical experience includes internships and collaborations with industry partners, enhancing his understanding of real-world applications. Mr. Haonan Hu remains dedicated to academic excellence, continuously striving to push the boundaries of knowledge and make impactful contributions to both his university and the broader academic community.

Publication Top Notes:

  1. Safe Trajectory Planning for Incremental Robots Based on a Spatiotemporal Variable-Step-Size A Algorithm*
    • Authors: Hu, H., Wen, X., Hu, J., Xia, C., Zhang, H.
    • Journal: Sensors
    • Citations: 0
  2. Research on an Adaptive Method for the Angle Calibration of Roadside LiDAR Point Clouds
    • Authors: Wen, X., Hu, J., Chen, H., Hu, H., Zhang, H.
    • Journal: Sensors
    • Citations: 2