Jiebo Li – Ultrafast Spectroscopy – Best Researcher Award 

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Assoc. Prof. Dr. Jiebo Li - Ultrafast Spectroscopy - Best Researcher Award 

Beihang University - China

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🎓 Early Academic Pursuits

Associate Professor Dr. Jiebo Li's academic journey began at Peking University, where he earned his B.S. (2002–2006) and M.S. (2006–2008) degrees, excelling in foundational and advanced scientific disciplines. Driven by an innate curiosity and passion for research, he pursued a Ph.D. at Rice University (2009–2014), where he gained deep expertise in advanced spectroscopy techniques. His doctoral studies laid the groundwork for his innovative research in ultrafast spectroscopy and photochemistry manufacturing.

💼 Professional Endeavors

Following the completion of his Ph.D., Dr. Jiebo Li served as a Postdoctoral Researcher at Rice University (2014–2017), where he expanded his research portfolio and contributed to significant advancements in the field of spectroscopy. Since 2018, he has been a Principal Investigator and Associate Professor in the Department of Biomedical Engineering at Beihang University. In this role, he has established a world-class research lab and mentored numerous students, fostering innovation and interdisciplinary collaboration.

🔬 Contributions and Research Focus

Dr. Jiebo Li’s research is centered on two primary areas: ultrafast spectroscopy and photochemistry manufacturing. He employs cutting-edge ultrafast techniques to investigate fundamental electron-vibration coupling and thermal flow at the interfaces of advanced materials. This research has unveiled critical insights into the behavior of materials under extreme conditions. Leveraging these findings, his lab develops innovative medical devices, including antibacterial tools, implantable devices, and smart electronics, showcasing a seamless integration of scientific understanding with practical applications.

🌍 Impact and Influence

Dr. Li's pioneering work in ultrafast spectroscopy has had a profound impact on both academia and industry. His research has significantly advanced the understanding of material behavior at microscopic scales, influencing fields such as materials science, photonics, and biomedical engineering. He actively collaborates with leading institutions and contributes to global research initiatives, amplifying his influence in shaping the future of spectroscopy and its applications.

🏆Academic Cites

Dr. Jiebo Li’s research has been widely published and cited in top-tier scientific journals, reflecting the depth and originality of his work. His contributions in ultrafast spectroscopy are frequently referenced by peers, underscoring the relevance of his findings to ongoing advancements in the field. His high citation count highlights his standing as a leading expert in spectroscopy and photochemistry manufacturing.

🌟 Legacy and Future Contributions

As a trailblazer in ultrafast spectroscopy and photochemistry manufacturing, Dr. Jiebo Li’s legacy is defined by his ability to bridge fundamental research and practical innovation. Looking ahead, he aims to continue exploring new frontiers in spectroscopy while developing transformative medical devices. His dedication to mentoring young researchers and driving interdisciplinary collaboration ensures that his influence will resonate across generations, leaving a lasting impact on science and engineering.

📝Ultrafast Spectroscopy

Dr. Jiebo Li's expertise in ultrafast spectroscopy has redefined the understanding of electron-vibration interactions and thermal dynamics at material interfaces. His innovative application of ultrafast spectroscopy techniques has directly informed the development of advanced medical devices and smart electronics. As a leader in the field, Dr. Li’s ongoing contributions to ultrafast spectroscopy promise to drive future breakthroughs in science and technology.

Notable Publication

📝Real-time Observation of Two Distinctive Non-Thermalized Hot Electron Dynamics at MXene/Molecule Interfaces

Authors: Zhang, Q., Li, W., Zhao, R., Li, J., Yang, X.

Journal: Nature Communications

Year: 2024

Citations: 3

📝A Bio-Feedback-Mimicking Electrode Combining Real-Time Monitoring and Drug Delivery

Authors: Liu, S., Ning, T., Chen, J., Niu, X., Fan, Y.

Journal: Innovation

Year: 2024

Citations: 0

📝Single-Step and Parallel High-Speed Fabrication for Au Micro-/Nanostructures

Authors: Fu, Y., Wang, B., Wei, J., Ding, X., Li, J.

Journal: Optics Letters

Year: 2024

Citations: 0

📝Polar-Coordinate Line-Projection Light-Curing Continuous 3D Printing for Tubular Structures

Authors: Wang, H., Liu, S., Yin, X., Fan, Y., Li, J.

Journal: International Journal of Extreme Manufacturing

Year: 2024

Citations: 2

📝Molten Salt Corrosion Behavior of Laser Remelted PS-PVD YSZ Thermal Barrier Coatings

Authors: Zhou, Q., Wen, J., Li, Y., Li, J., He, J.

Journal: Journal of Materials Research and Technology

Year: 2024

Citations: 0

📝Wireless Measurement of Orthodontic Forces in Invisible Aligners

Authors: Wang, S., Xu, B., Wang, X., Fan, Y., Li, J.

Journal: Medicine in Novel Technology and Devices

Year: 2024

Citations: 1

Jian-ping Zou – Pollutant Degradation and Resource Utilization – Best Researcher Award

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Prof. Dr. Jian-ping Zou - Pollutant Degradation and Resource Utilization - Best Researcher Award 

Nanchang Hangkong University - China 

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🎓 Early Academic Pursuits

Prof. Dr. Jian-ping Zou began his academic journey with a focus on materials science and chemistry. He completed his Ph.D. in 2007 at the Fujian Institute of Structure of Matter, Chinese Academy of Sciences. His doctoral work laid the foundation for his future research in environmental functional materials. Shortly after earning his Ph.D., he joined Nanchang Hangkong University, where his commitment to academic excellence propelled him to the position of Dean of the Graduate School.

💼 Professional Endeavors

Since joining Nanchang Hangkong University in July 2007, Dr. Jian-ping Zou has undertaken numerous research initiatives that bridge academia and industry. He has successfully completed 21 major research projects and contributed to consultancy and industry-driven collaborations across six projects. Recognized for his exceptional contributions, he has been awarded prestigious honors, including the National Outstanding Youth Fund (2016) and a distinguished professorship under the “Changjiang Scholars Program” (2023). Additionally, he was selected as a national candidate for the “One Million Project” in 2020.

🔬 Contributions and Research Focus

Dr. Zou’s research primarily focuses on pollutant degradation and resource utilization, emphasizing the synthesis and application of environmental functional materials, pollutant control, and nano photoelectrocatalysis. His pioneering work has addressed critical challenges, such as cyanide detoxification, the recycling of metal complexes, and the efficient degradation of organic pollutants while simultaneously harnessing energy. These innovations have resulted in significant advancements in environmental sustainability.

🌍 Impact and Influence

Dr. Jian-ping Zou's impact is evident in the transformative nature of his research. With over 100 published papers in high-impact journals, including Nature Communications, Angewandte Chemie International Edition, and ACS Catalysis, his work is widely recognized and cited within the academic community. His contributions have also extended to practical applications, with 30 patents—six of which have been commercialized, generating over 60 million yuan in economic benefits. His role as an editorial board member of Chinese Chemical Letters further underscores his influence in shaping the future of chemical research.

🏆Academic Cites

The significance of Dr. Zou’s research is reflected in citations across globally recognized journals, showcasing his leadership in the field of pollutant degradation and resource utilization. Key works, such as those in Environmental Science & Technology and Water Research, highlight his ability to tackle pressing environmental issues through innovative methodologies.

🌟 Legacy and Future Contributions

Prof. Dr. Jian-ping Zou’s legacy lies in his groundbreaking approaches to environmental challenges and his mentorship of future researchers. By proposing novel solutions for pollutant degradation and advancing resource utilization, he has established a sustainable framework for addressing global environmental concerns. Looking forward, his continued efforts in nano photoelectrocatalysis and functional material synthesis are expected to yield even greater advancements in pollutant degradation and resource utilization, leaving an indelible mark on the field.

📝Pollutant Degradation and Resource Utilization

Through innovative research in pollutant degradation and resource utilization, Dr. Zou has significantly advanced the synthesis of functional materials and pollutant control strategies. His focus on pollutant degradation and resource utilization continues to drive impactful solutions in environmental science and industry applications.

Notable Publication

📝Covalent Organic Polymers Based on Triazine-Pyridyl Group for High Capacity and High Selectivity Removal of Pd(Ⅱ)

Authors: Meng, A., Yan, H., Zhu, J., Qin, Y., Zou, J.

Journal: Separation and Purification Technology

Year: 2025

Citations: 0

📝Photogenerated Electron Transfer Channels in Carbon Nanotube-Intercalated Cu₂O Nanospheres for Boosting Visible Light-Driven CO₂ Reduction

Authors: Wang, X., Wei, Y., Tang, Z., Zhao, Z., Zhang, X.

Journal: Applied Catalysis B: Environmental

Year: 2025

Citations: 0

📝Unveiling the Critical Role of Surface Adsorbed Oxygen Species for Efficiently Photothermocatalytic Oxidation of VOCs: Replenishing the Active Surface Lattice Oxygen Sites

Authors: Zhang, J., Wu, Z., Zhao, C., Zou, J.-P., Luo, X.

Journal: Journal of Hazardous Materials

Year: 2025

Citations: 0

📝Site Engineering of Covalent Organic Frameworks to Increase Charge Transfer Channels and Provide Hydrogen Bond Toward Enhanced Photocatalytic Reduction of U(VI)

Authors: Huang, Q., Zhang, H., Yang, H., Gao, Z., Zou, J.-P.

Journal: Applied Catalysis B: Environmental

Year: 2025

Citations: 0

📝Design and Construction of a Ag₃PO₄ NPs/Protonated g-C₃N₄ Nanosheet S-Scheme Heterojunction for Photocatalytic Degradation of C₂H₄

Authors: Peng, S., Luo, X., Xu, Z., Zou, J.-P., Chen, X.

Journal: Separation and Purification Technology

Year: 2025

Citations: 1

Zhen-Nan Tian – Femtosecond Laser Micro-nano Processing – Best Researcher Award

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Prof. Zhen-Nan Tian - Femtosecond Laser Micro-nano Processing - Best Researcher Award 

Jilin University - China 

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🎓 Early Academic Pursuits

Prof. Zhen-Nan Tian's academic journey began with a Bachelor of Science degree in Optical Information Science and Technology from the College of Physics, Jilin University, in 2007. He further pursued advanced studies, earning a Doctoral degree in Physical Electronics from the College of Electronic Science and Engineering, Jilin University, in 2017. Prof. Tian expanded his research expertise during his post-doctoral work at the College of Physics, Polytechnic of Milan, Italy, from 2018 to 2019. His academic foundation set the stage for his current role as an Associate Professor and student tutor at Jilin University.

💼 Professional Endeavors

Since 2017, Prof. Tian has been an academic member of the College of Electronic Science and Engineering at Jilin University, where he was promoted to Associate Professor in 2019. He has also served as a student tutor, guiding the next generation of researchers in the field of optical and electronic sciences. His professional career has been centered around advancing the understanding and application of femtosecond laser direct writing for creating 3D photonic chips and micro-optical elements.

🔬 Contributions and Research Focus

Prof. Tian’s primary research area focuses on femtosecond laser micro-nano processing, particularly in the fabrication and control of 3D photonic integrated devices. His work involves using femtosecond lasers for the direct writing of 3D photonic chips, with applications in quantum computing, topological photonics, and telescope-on-chip technologies. He is particularly focused on achieving large-depth 3D photonic integrated chips by spatially shaping femtosecond pulses, and he precisely controls the properties of the waveguides, such as transmission loss, mode field size, guided wave mode, phase, and polarization. His research has extended the capabilities of femtosecond laser micro-nano processing, enabling high-integrated, precise, and controllable photonic devices.

🌍 Impact and Influence

Prof. Tian has made substantial contributions to the field of femtosecond laser micro-nano processing. His innovative work has resulted in over 30 SCI-indexed papers, focusing on the fabrication and control of femtosecond laser direct-writing micro-optical elements and 3D photonic integrated devices. Additionally, he has applied for 10 Chinese national invention patents, highlighting the practical applications and novel nature of his work. His research has advanced the understanding of photonic integration, positioning him as a key figure in areas like quantum computing and topological photonics.

🏆Academic Cites

Prof. Tian's research is widely recognized within the scientific community. His publications have been cited by researchers working in the fields of photonics, quantum computing, and femtosecond laser micro-nano processing. His work continues to influence ongoing research in these areas, contributing to the development of more precise and efficient methods for fabricating photonic chips and integrated devices.

🌟 Legacy and Future Contributions

Prof. Zhen-Nan Tian is on track to leave a lasting legacy in the field of photonics and femtosecond laser micro-nano processing. As he continues to advance his research in 3D photonic chips and waveguide technologies, his work will play a crucial role in the development of next-generation technologies in quantum computing, topological photonics, and compact optical systems. His future contributions are expected to further push the boundaries of femtosecond laser micro-nano processing, potentially transforming multiple industries through the integration of advanced photonic devices.

📝Femtosecond Laser Micro-nano Processing

Prof. Zhen-Nan Tian’s pioneering work in femtosecond laser micro-nano processing has revolutionized the creation of high-precision 3D photonic integrated devices. His research continues to influence advancements in femtosecond laser micro-nano processing, offering novel solutions for various applications, from quantum computing to advanced optical systems. Through his groundbreaking efforts, Prof. Tian is helping to shape the future of photonics, with his focus on femtosecond laser micro-nano processing serving as a cornerstone for future technological developments.

Notable Publication

📝Three-dimensional Multichannel Waveguide Grating Filters

Authors: Yin, S.-Y., Guo, Q., Liu, S.-R., Tian, Z.-N., Chen, Q.-D.

Journal: Opto-Electronic Science

Year: 2024

Citations: 0

📝Two-dimensional Non-Abelian Thouless Pump

Authors: Sun, Y.-K., Shan, Z.-L., Tian, Z.-N., Chen, Q.-D., Zhang, X.-L.

Journal: Nature Communications

Year: 2024

Citations: 0

📝Nanofabrication of Lithium Niobate Anti-Reflective Subwavelength Structures for High Power Mid-Infrared Lasers

Authors: Zheng, J.-X., Liu, X.-Q., Tian, K.-S., Wang, L., Chen, Q.-D.

Journal: Laser and Photonics Reviews

Year: 2024

Citations: 2

📝Non-Abelian Holonomy in Degenerate Non-Hermitian Systems

Authors: Shan, Z.-L., Sun, Y.-K., Tao, R., Tian, Z.-N., Zhang, X.-L.

Journal: Physical Review Letters

Year: 2024

Citations: 0

📝Femtosecond Laser Direct Writing of Bent Waveguides with High Curvature and Low Loss

Authors: Li, Y., Xiao, K., Li, Z., Yu, Y., Tian, Z.

Journal: Zhongguo Jiguang/Chinese Journal of Lasers

Year: 2024

Citations: 0

📝Femtosecond Laser 3D Nano-Printing for Functionalization of Optical Fiber Tips

Authors: Bian, P., Hu, Z.-Y., An, R., Liu, X.-Q., Chen, Q.-D.

Journal: Laser and Photonics Reviews

Year: 2024

Citations: 2

Feng Wang – Energy Materials – Best Researcher Award

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Ms. Feng Wang - Energy Materials - Best Researcher Award 

Guilin University of Electronic Technology - China

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🎓 Early Academic Pursuits

Ms. Feng Wang embarked on her academic journey at Wuhan University of Science and Technology, where she earned her Bachelor’s degree in Inorganic Non-Metallic Materials in 2011. She deepened her expertise with a Master’s degree in Materials Physics and Chemistry from Guilin University of Electronic Science and Technology, completed in 2014. Her academic pursuits culminated in a Ph.D. from Beihang University in 2018, where she specialized in Materials Physics and Chemistry, laying the groundwork for her distinguished career in energy materials.

💼 Professional Endeavors

Ms. Feng Wang began her professional career as a Lecturer at Guilin University of Electronic Science and Technology in 2018. In 2022, she advanced to the role of Associate Professor, where she has continued to make significant contributions to materials science research. Her professional endeavors have focused on hydrogen storage alloys and energy materials, bridging theoretical research and practical applications to address global energy challenges.

🔬 Contributions and Research Focus

Ms. Wang’s research focus is centered on energy materials, particularly hydrogen storage alloys. She has been the lead investigator in the National Natural Science Foundation of China Youth Project, which explored the synergistic catalytic hydrogen absorption/desorption processes of ZrCo alloys. Her contributions include elucidating the mechanisms of hydrogen storage and developing advanced V-Ti and V-Pd-based alloys with optimized microstructure and hydrogen permeation performance. These projects have not only advanced the understanding of energy materials but also provided critical insights for future sustainable energy technologies.

🌍 Impact and Influence

The impact and influence of Ms. Feng Wang’s work are evident through her involvement in nationally funded projects and her contributions to advancing the field of energy materials. Her research has provided critical insights into the relationship between phase equilibrium, microstructure, and hydrogen storage performance, influencing both academic and industrial applications. Her collaborations with research teams on national projects underscore her role as a leader in the field.

🏆Academic Cites

Ms. Wang’s research has been widely recognized and cited in reputable journals, reflecting the importance of her contributions to energy materials. Her findings on hydrogen storage alloys have been referenced by scholars and practitioners, establishing her as a prominent figure in this area. The high citation rate of her work underscores her influence on the scientific community and the practical relevance of her research.

🌟 Legacy and Future Contributions

Looking ahead, Ms. Feng Wang aims to further advance the field of energy materials through innovative research and collaboration. Her future contributions are expected to focus on designing and optimizing materials with enhanced hydrogen storage capabilities, addressing critical energy needs. As an educator, she continues to mentor young scientists, ensuring that her legacy of innovation and dedication to energy materials will inspire future generations.

📝Energy Materials

Ms. Feng Wang’s expertise in energy materials is demonstrated through her groundbreaking research on hydrogen storage alloys. Her work on the development of advanced materials with optimized hydrogen absorption properties has significantly advanced the field of energy materials. As a leading researcher, Ms. Wang’s ongoing efforts promise to make lasting contributions to the development and application of energy materials for sustainable energy solutions.

Notable Publication

📝Article Title: Enhancement for Hydrogen Transport Properties by Tailoring Lattice Matching in V-Pd-Fe Ternary Alloy Membrane

Authors: Wu, C., Lai, H., Wang, F., She, Y., Wang, Z.

Journal: Journal of Alloys and Compounds

Year: 2024

Citations: 1

📝Article Title: Strongly Coupled C@MoSe2@OMWCNT Heterostructure as an Anode for Sodium-Ion Batteries

Authors: Yang, Y., Wang, F., Biang, M., Yin, S.-F., Qiu, R.

Journal: Journal of Alloys and Compounds

Year: 2024

Citations: 1

📝Article Title: Controllable Preparation and Sodium Storage Properties of Sb2Te3–Te Heterojunction

Authors: Jia, S., Jiang, S., Li, S., Qin, H., Deng, J.

Journal: Nano

Year: 2024

Citations: 0

📝Article Title: Realizing Dual Functions Through Y2O3 Modification to Enhance the Electrochemical Performance of LiNi0.8Co0.1Mn0.1O2 Material

Authors: Wang, X., Wang, F., Zheng, M., Liu, P., Liu, D.

Journal: Coatings

Year: 2024

Citations: 0

📝Article Title: Influence of Zr Addition on the Microstructure and Hydrogenation Kinetics of Ti50−xV25Cr25Zrx (x = 0, 5, 7, and 9) Alloys

Authors: Zeng, Q., Wang, F., Li, Z., Wang, J., Wang, Z.

Journal: Materials

Year: 2024

Citations: 0

Yi Yang – Ultrafast Transient Absorption Spectroscopy – Best Researcher Award

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Prof. Yi Yang - Ultrafast Transient Absorption Spectroscopy - Best Researcher Award 

Sichuan University of Science and Engineering - China

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🎓 Early Academic Pursuits

Professor Yi Yang’s academic journey began with distinction at Southwest University, where he earned his undergraduate degree in Chemistry, graduating in the top 5% of his class in 2007. Building on this strong foundation, he pursued advanced studies at the Shanghai Institute of Organic Chemistry, part of the Chinese Academy of Sciences, focusing on organofluorine chemistry under the guidance of renowned supervisor Feng-Ling Qing. These formative years were marked by rigorous research and academic excellence, setting the stage for his future breakthroughs in chemistry.

💼 Professional Endeavors

Prof. Yi Yang embarked on a distinguished academic career that has spanned nearly a decade at Sichuan University of Science and Engineering. He began as an Associate Professor in 2015 and was promoted to a full Professorship in 2020, reflecting his exceptional contributions to the field. In 2014–2015, Prof. Yang expanded his expertise as a visiting scholar at Lehigh University, where he engaged in collaborative research and broadened his academic horizons. His professional endeavors have consistently centered on cutting-edge research and innovative teaching methods.

🔬 Contributions and Research Focus

Prof. Yang’s research has focused on ultrafast transient absorption spectroscopy, organofluorine chemistry, and organometallic chemistry. His work in ultrafast transient absorption spectroscopy has been instrumental in elucidating the dynamic behavior of molecules at femtosecond timescales. This groundbreaking research has provided insights into reaction mechanisms and the properties of novel compounds, particularly in organofluorine systems. His pioneering contributions have significantly advanced the understanding of molecular dynamics, with implications for material science and pharmaceuticals.

🌍 Impact and Influence

Prof. Yi Yang’s impact extends across academic and industrial domains. His research in ultrafast transient absorption spectroscopy has influenced how scientists study fast chemical processes, earning him recognition both nationally and internationally. Through collaborations with global institutions and mentoring students, Prof. Yang has fostered a culture of innovation and academic rigor. His work bridges the gap between theoretical chemistry and practical applications, enhancing the relevance of his contributions.

🏆Academic Cites

Prof. Yang’s publications have been widely cited in leading journals, underscoring the importance of his research in ultrafast spectroscopy and organofluorine chemistry. His studies are frequently referenced by researchers seeking to explore molecular dynamics and reaction mechanisms. This high citation rate reflects the significant influence of his findings on the broader scientific community.

🌟 Legacy and Future Contributions

Prof. Yi Yang is poised to continue making significant contributions to the field of chemistry. His ongoing research in ultrafast transient absorption spectroscopy is expected to drive further innovations, particularly in understanding high-speed molecular interactions. As a dedicated educator and researcher, he remains committed to mentoring the next generation of chemists and expanding the frontiers of organofluorine and organometallic chemistry. His legacy will be one of innovation, discovery, and academic excellence.

📝Ultrafast Transient Absorption Spectroscopy

Through his exceptional work in ultrafast transient absorption spectroscopy, Prof. Yi Yang has revolutionized the understanding of molecular dynamics. His innovative applications of ultrafast transient absorption spectroscopy have unveiled new perspectives in reaction kinetics. The future of ultrafast transient absorption spectroscopy is brighter with Prof. Yang’s continued leadership and groundbreaking research efforts.

Notable Publication

📝Selective Monodeuteration Enabled by Bisphosphonium Catalyzed Ring Opening Processes

Authors: Xu, Y., Chen, W., Pu, R., Liu, W., Zuo, Z.

Journal: Nature Communications

Year: 2024

Citations: 1

📝In(OTf)₃-Catalyzed Formal (4 + 3) Cycloaddition Reactions of 3-Benzylideneindoline-2-Thiones with 2-Indolylmethanols

Authors: Wang, X.-L., Yang, Y., Jiang, Y.

Journal: Organic and Biomolecular Chemistry

Year: 2024

Citations: 0

📝Sc(OTf)₃-Catalyzed Diastereoselective [4 + 2] Cycloaddition Reaction of 3-Benzylideneindoline-2-Thiones with Alkylidene Malonates

Authors: Wang, X.-L., Zeng, J.-Y., Yang, Y., Jiang, Y.

Journal: Tetrahedron Letters

Year: 2024

Citations: 3

📝Sc(OTf)₃-Catalyzed Tunable Thio-(3+3) Annulation Reactions of Indoline-2-Thiones with α-Benzylidene-β-Tetralones

Authors: Jiang, Y., Ma, H.-J., Zhai, C.-Y., Wang, X.-L., Yang, Y.

Journal: Asian Journal of Organic Chemistry

Year: 2024

Status: Article in Press

Citations: 0

📝Yb(OTf)₃-Catalyzed Formal (4 + 3) Cycloaddition Reactions of 3-Benzylideneindoline-2-Thiones with Donor-Acceptor Cyclopropanes

Authors: Jiang, Y., Ma, H.-J., Wang, X.-L., Yang, Y.

Journal: Journal of Organic Chemistry

Year: 2023

Citations: 5

📝AlCl₃-Mediated Ring-Opening Reactions of Indoline-2-Thiones with Acyl Cyclopropanes, Bi-Cyclopropanes, and Spirocyclic Cyclopropanes

Authors: Ma, H.-J., Gao, K., Wang, X.-L., Yang, Y., Jiang, Y.

Journal: Organic and Biomolecular Chemistry

Year: 2023

Citations: 5

Khashayar Ghandi – Remote sensing – Excellence in Innovation

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Dr. Khashayar Ghandi - Remote Sensing - Excellence in Innovation 

University of Guelph - Canada 

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🎓 Early Academic Pursuits

Dr. Khashayar Ghandi’s academic journey began with a Bachelor’s degree in Chemistry from Shiraz University (1986–1990). Building on this foundation, he pursued a Master’s degree at Tehran University (1992–1994), focusing on Theoretical Chemical Physics with a thesis titled “Statistical Non-Equilibrium Thermodynamics.” His commitment to advancing the frontiers of chemistry culminated in a Doctorate from Simon Fraser University (1996–2002), where his groundbreaking work in Radiation Chemistry, particularly "Experimental High Pressure Aqueous Chemistry," was guided by Dr. Paul Percival. His early academic achievements laid the groundwork for his significant contributions to fields like REMOTE SENSING and nanomaterials research.

💼 Professional Endeavors

Dr. Ghandi’s professional career is marked by excellence in both academic and research roles. He has earned recognition as a visiting professor at prestigious institutions such as Université Paris-Saclay, where he contributed to nuclear engineering advancements through the LabEx PALM award. He has also served as a distinguished symposium session chair at the Institute of Nuclear Energy Safety Technology in China. His innovative spirit is evident in his leadership roles, including serving as a technical excellence speaker at Kinetrics and collaborating on groundbreaking projects in green chemistry and nanomaterials.

🔬 Contributions and Research Focus

Dr. Ghandi’s research encompasses a diverse array of disciplines, including radiation chemistry, green chemistry, and nuclear engineering. His recent work in REMOTE SENSING has contributed to advancements in analytical techniques and material sciences. Notably, his co-authored paper, “A Comprehensive Review of Graphitic Carbon Nitride (g-C3N4)–Metal Oxide-Based Nanocomposites: Potential for Photocatalysis and Sensing,” published in Nanomaterials (2022), received the Nanomaterials 2024 Best Paper Award. His dedication to cutting-edge research has solidified his reputation as a pioneer in the integration of theoretical and experimental methods across chemical sciences.

🌍 Impact and Influence

Dr. Ghandi’s influence is reflected in his numerous accolades, including the Jean d'Alembert Fellowship and the Anderson Lectureship. These awards highlight his exceptional contributions to the fields of chemistry and material sciences. His work in REMOTE SENSING has gained significant attention within the scientific community, further evidenced by his role as a keynote speaker and his frequent nominations for prestigious teaching and research awards.

🏆Academic Cites

The impact of Dr. Ghandi’s research is evident in the high citation rates of his publications. His studies on nanomaterials and green chemistry have become foundational references in their respective fields. The originality and applicability of his work have driven advancements in areas such as REMOTE SENSING, nuclear engineering, and photochemical processes.

🌟 Legacy and Future Contributions

Dr. Ghandi’s legacy is rooted in his interdisciplinary approach to science, combining theoretical insights with experimental innovations. His ongoing collaborations with leading institutions, including Université Paris-Saclay and KEK, ensure that his contributions will continue to shape the future of chemistry and material sciences. His work on the intersection of nanomaterials and sensing technologies positions him to make lasting impacts in REMOTE SENSING, energy applications, and sustainable chemistry.

🏆Awards and Recognitions

Dr. Ghandi has received numerous prestigious awards throughout his career. These include the Paul Paré Excellence Award, the JEA Crake Teaching Award, and the Nanomaterials Best Paper Award. Each recognition underscores his dedication to scientific excellence, education, and innovation, affirming his status as a leader in the global scientific community.

📝Notable Publication

📝Superluminal Molecular and Nanomaterial Probes Based on Fast Ions or Electrons

Authors: Morrison, A., Srivatsa, V.M., Ghandi, K.

Journal: Molecules

Year: 2024

Citations: 0

📝Uncovering Correlations of Surface Reactivity and Electron Transport in Oxide Spinels

Authors: Farshidfar, F., Lapolla, M., Ghandi, K.

Journal: Materials Today Chemistry

Year: 2024

Citations: 4

📝On the Structural and Electrical Properties of MgFe₂O₄, MgMn₀.₂Fe₁.₈O₄, and Mn₃O₄

Authors: Farshidfar, F., Lapolla, M., Fattahi, A., Ghandi, K.

Journal: Heliyon

Year: 2023

Citations: 1

📝The Interplay of Growth Mechanism and Properties of ZnO Nanostructures for Different Applications

Authors: Clarke, B., Ghandi, K.

Journal: Small

Year: 2023

Citations: 18

📝A Creative Method to Tune Fe–O Interaction in Ferrites

Authors: Farshidfar, F., Fattahi, A., Brüning, R., Ryan, D.H., Ghandi, K.

Journal: Journal of Advanced Ceramics

Year: 2023

Citations: 3

Marceliano Oliveira – Statistics – Best Researcher Award

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Prof. Dr. Marceliano Oliveira - Statistics - Best Researcher Award 

UEA Amazon State University - Brazil

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🎓 Early Academic Pursuits

Prof. Dr. Marceliano Oliveira embarked on his academic journey with a strong foundation in physics, earning his undergraduate degree from UFMT, Brazil. His early research delved into essential cosmological models and the study of single components within Robertson-Walker-Friedman-Lemâitre frameworks, reflecting his deep interest in the fundamental principles governing the universe. These formative experiences solidified his expertise in theoretical physics and laid the groundwork for his future contributions.

💼 Professional Endeavors

Dr. Oliveira continued his academic trajectory by completing a Master’s degree in Physics at UFMT, Brazil. His thesis focused on gravitation and cosmology, with an emphasis on General Relativity and Einstein Field Equations. He explored extragalactic cosmological single fluids in the early universe, contributing to a deeper understanding of the universe's origins. Pursuing his doctoral studies at UFC, Brazil, he specialized in computational physics, applying his expertise to petroleum reservoir simulation at the LSN Lab with support from PETROBRAS. These professional endeavors showcased his ability to merge theoretical insights with computational applications, broadening his research horizons.

🔬 Contributions and Research Focus

As the head of the Scientific Computing Lab (SCL) at UEA Amazon since 2012, Dr. Oliveira has been instrumental in advancing research in simulating physical phenomena. His leadership of the Associate Physicists Group (APG) unites researchers across Brazil, fostering collaboration in theoretical, mathematical, computational, and applied physics. His notable contributions include solving perturbation models in the New Modified Chaplygin Gas Model (NMCGM) using Computer Algebra Systems like Maple and pioneering the development of models for thin films with interstitial impurities. These studies highlight his innovative approach to both classical and modern physics problems.

🌍 Impact and Influence

Dr. Oliveira's work has significantly impacted the fields of cosmology and computational physics. His research on modifying classical physics distributions to uncover dimensionless fluctuations has provided new theoretical insights and practical methodologies. This groundbreaking work, which connects statistics with Boltzmann PDEs, has garnered attention within the scientific community and has been cited in other impactful articles. His influence extends beyond academia through contributions to high-impact journals like Nature Scientific Reports Open Access, ensuring his findings reach a global audience.

🏆Academic Cites

Dr. Oliveira's publications have been extensively cited, underscoring the importance of his contributions to physics and statistics. His preprints and articles have been referenced in critical scientific discussions, solidifying his reputation as a thought leader. His ability to connect experimental distributions with theoretical models has positioned him as a pivotal figure in his research areas.

🌟 Legacy and Future Contributions

Looking to the future, Dr. Oliveira aims to further refine his statistical and computational models, extending their applications to new fields and phenomena. His innovative methods for deriving distribution PDEs and connecting experimental data with theoretical frameworks promise to open new research avenues. As a mentor and collaborator, his efforts in leading APG and SCL ensure that his legacy will inspire the next generation of physicists and statisticians.

📝Statistics

Dr. Oliveira’s innovative work in statistics bridges theoretical physics and experimental applications. His pioneering approach to statistics has introduced methods to derive distribution PDEs, enhancing our understanding of physical phenomena. By integrating statistics with computational tools and theoretical models, Dr. Oliveira continues to shape the future of physics research.

Notable Publication

📝Dimensionless Fluctuations Balance Applied to Statistics and Quantum Physics

Authors: Oliveira, M., Valadares, G., Rodrigues, F., Freire, M.

Journal: Scientific Reports

Year: 2024

Citations: 0

📝Simulation of Wave Propagation with Obstacles: Time Invariance Operator Applied to Interference and Diffraction

Authors: Oliveira, M., Rodrigues, F., Valadares, G., Freire, M.

Journal: AIP Advances

Year: 2023

Citations: 0

Diana Portan – Polymers Biodegradation in Relevant Environments – Best Researcher Award 

Posted on by AMO Physics

Dr. Diana Portan - Polymers Biodegradation in Relevant Environments - Best Researcher Award 

University of Patras - Greece 

Author Profile

Google Scholar

Orcid

🎓 Early Academic Pursuits

Dr. Diana Portan's academic journey began with a Bachelor's degree in Ecology and Environmental Sciences from the University of Bucharest, Romania, where she focused on microbiology. Her early academic pursuits were further solidified through her Master's program in Biocompatible Substances, Materials, and Systems at ‘Politehnica’ University of Bucharest. Her research during this period examined the impact of electromagnetic radiation on the physical and mechanical aging of silicones used in prosthetic face surgery. This foundation in material science laid the groundwork for her later work on nanomaterials, particularly titanium dioxide nanotubes, which became the focus of her PhD research.

💼 Professional Endeavors

Dr. Portan’s professional career has been marked by her diverse roles at renowned academic and research institutions. Since July 2023, she has been a researcher at the University of Patras, Greece, focusing on research and the co-supervision of students. In addition, she is a collaborating researcher at the University of Medicine, Pharmacy, Sciences, and Technology of Tg. Mures, Romania, as well as at ROBETECH EMC S.R.L., where she contributes to scientific proposal writing and facilitates collaborations between Romanian and Greek research institutions. Her previous experience includes teaching and supervising students at the University of Patras and the University of Peloponnese, Greece, from 2012 to 2020.

🔬 Contributions and Research Focus

Dr. Portan’s research contributions are centered on the development and application of polymers biodegradation in relevant environments, particularly focusing on the biocompatibility and environmental impact of nanomaterials. Her PhD research, which earned her diplomas from both the University of Bucharest and the University of Patras, explored the fabrication and characterization of titanium dioxide nanotubes and their interface with biological, physical, and mechanical systems. A key area of her work has been understanding the role of polymers biodegradation in relevant environments for biomedical applications, such as implants, where the sustainability of materials is a critical concern. Dr. Portan has also explored the applications of nanocomposites in biomedical and technological contexts, with a specific focus on polymers biodegradation in relevant environments.

🌍 Impact and Influence

Dr. Portan's influence in the fields of nanomaterials and polymers biodegradation in relevant environments is evident in her numerous contributions to international conferences and her award-winning research. Her work on nanostructured titanium-based surfaces for biomedical implants was recognized with a Best Flash Talk award at the Bioremed 2017 conference. Additionally, she has been invited to deliver lectures at prestigious universities such as the University of Leoben, Austria, and the University of Lulea, Sweden, showcasing her role as an expert in her field. Dr. Portan’s research has had a lasting impact on the development of sustainable materials for biomedical applications, particularly in the context of polymers biodegradation in relevant environments.

🏆Academic Cites

Dr. Portan's scholarly work has been widely cited in the academic community, reflecting her contributions to the study of nanomaterials, biocompatibility, and the environmental impact of polymers. Her research on the polymers biodegradation in relevant environments has been instrumental in advancing our understanding of sustainable materials in biomedical and environmental contexts. One of her notable works, which investigates the nanomechanical properties of multilayered hybrid nanocomposites, was awarded the Thomaidio Award by the National Technical University of Athens, further underscoring the impact of her research.

🌟 Legacy and Future Contributions

Looking forward, Dr. Portan is poised to continue her impactful work on polymers biodegradation in relevant environments and its applications in sustainable material development. Her future research will likely expand on the environmental and biomedical aspects of nanomaterials, advancing technologies that minimize ecological footprints while enhancing the performance and biocompatibility of medical implants and other advanced materials. Dr. Portan’s legacy in the academic and scientific community will be defined by her contributions to the development of more sustainable and biodegradable materials that meet the needs of modern biomedical and environmental applications.

📝Polymers Biodegradation in Relevant Environments

Dr. Portan’s research into polymers biodegradation in relevant environments stands at the forefront of sustainability in biomedical and technological fields. Her work on the biodegradation of polymers, particularly in the context of nanomaterials and implants, has significant implications for both environmental and health-related applications. Through her extensive research, Dr. Portan has advanced our understanding of how polymers biodegradation in relevant environments can influence the design of biocompatible and environmentally friendly materials for the future.

Notable Publication

📝Biodegradation and Thermomechanical Behavior of 3D-Printed PLA Scaffolds Under Static and Stirring Biomimetic Conditions

Authors: DV Portan, G Babounis, A Koliadima, AC Patsidis, LC Kontaxis, ...

Journal: Biomimetics

Year: 2024

📝Effect of the Electric Field on Human Cells: From In Vitro Response to In Vivo Feedback

Author: DV Portan

Journal: IOP Conference Series: Materials Science and Engineering

Year: 2024

📝Biomimetic Biomaterials: Functioning Principles, Key Properties, and Perspectives

Author: DV Portan

Publication: Book of Abstracts

Year: 2023

📝Immersion of 3D Non-Conductive vs. Conductive Biomedical Scaffolds in Cell Culture Medium: Fluid Absorption and Biodegradation

Authors: S Mamali, G Strnad, GC Papanicolaou, DV Portan

Publication: Book of Abstracts

Year: 2023

📝Biodegradation Profile of 3D-Printed PLA Scaffolds After Long-Term Immersion in Cell Culture Medium

Authors: A Angelopoulou, DV Portan, LC Kontaxis, D Kouzoudis, ...

Publication: Book of Abstracts

Year: 2023

📝Theoretical and Experimental Investigation of Flexural Behavior of Single-Lap Joints of Similar and Dissimilar Adherends

Authors: D Karagiannis, C Kousiatza, LC Kontaxis, DV Portan, GC Papanicolaou

Publication: Book of Abstracts

Year: 2023

Xinge Han – Personal Protection – Best Researcher Award 

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Ms. Xinge Han - Personal Protection - Best Researcher Award 

China University of Mining & Technology, Beijing - China

Author Profile

Scopus

🎓 Early Academic Pursuits

Ms. Xinge Han’s academic journey began with a solid foundation in Computer Science and Technology at Chongqing University of Science & Technology, where she obtained her bachelor’s degree in 2016. Her passion for research and safety systems led her to pursue a master’s degree in Safety Engineering at the People's Public Security University of China, culminating in a dissertation on urban theft crime prediction using advanced machine learning techniques. She is currently engaged in a combined Ph.D. program in Safety Science and Engineering at the China University of Mining & Technology, Beijing, focusing on innovative methods for predicting and early warning of human thermal stress using cloud collaboration. Her academic growth was further enriched by her tenure as an international scholar at KU Leuven, Belgium.

💼 Professional Endeavors

Ms. Han’s professional experience includes working as an internal staff member of the Narcotics Control Team at the Public Security Bureau of Yanshan County, where she gained firsthand insights into the complexities of community safety and law enforcement. This practical experience provided a strong foundation for her subsequent research endeavors, particularly her work on community risk prediction and prevention. Her tenure as an International Scholar at KU Leuven has further broadened her exposure to global safety science challenges and cutting-edge research methods.

🔬 Contributions and Research Focus

Ms. Han’s research is at the intersection of safety engineering, predictive modeling, and technology. Her dissertation work revolves around predicting and warning against human thermal stress using cloud collaboration, a timely and important research topic given the rising concerns about climate change and its impacts on human health. She has also contributed to the integration of LSTM (Long Short-Term Memory) and ST-GCN (Spatio-Temporal Graph Convolutional Networks) to predict urban theft crime, showcasing her expertise in combining data science with real-world safety challenges.

🌍 Impact and Influence

Ms. Han’s work has had a significant impact on the field of safety science. Her predictive models and innovative approaches to risk assessment are widely recognized for their practical applications in urban and extreme environments. Her research on personal protection in extreme high and low-temperature conditions has provided invaluable data for improving safety protocols for individuals operating in hazardous environments. Her contributions have influenced policy-making and operational strategies, particularly in law enforcement and urban planning sectors.

🏆Academic Cites

Ms. Han’s publications are frequently cited in academic journals and conferences, highlighting her influence in the domains of safety engineering and personal risk management. Her work bridges the gap between theoretical research and real-world applications, making it a valuable resource for scholars and practitioners alike.

🌟 Legacy and Future Contributions

Ms. Han’s legacy lies in her innovative integration of computational models with safety science, advancing the field of personal protection. Her future contributions are expected to focus on refining predictive technologies and exploring new dimensions of safety science, such as integrating multidimensional perception data into risk assessment systems. By mentoring young researchers and fostering interdisciplinary collaboration, Ms. Han is poised to leave a lasting impact on safety engineering and risk management.

📝Personal Protection

Throughout her career, Ms. Han has prioritized enhancing personal protection through innovative research and technological integration. Her development of prediction models for personal protection in extreme environments exemplifies her commitment to safeguarding human health and safety. The future of personal protection is set to benefit greatly from her ongoing research and collaborative initiatives.

Notable Publication

📝Sex Differences in Physiological Responses and Thermal Perception During Repeated Extremely Cold Exposure (−15 °C)

Authors: Li, C., Wu, J., Shen, S., Jiang, C., Han, X.

Journal: Energy and Buildings

Year: 2024

Citations: 0

📝Occupant Behavioral Adjustments and Thermal Comfort with Torso and/or Foot Warming in Two Cold Indoor Environments

Authors: Wang, F., Ke, Y., Zheng, Q., Zhou, H., Yang, B.

Journal: Building and Environment

Year: 2024

Citations: 6

📝Exploring the Correlation Between Temperature and Crime: A Case-Crossover Study of Eight Cities in America

Authors: Hu, J., Hu, X., Han, X., Wu, H., Shen, B.

Journal: Journal of Safety Science and Resilience

Year: 2024

Citations: 1

📝Prediction of Human Thermal Comfort Preference Based on Supervised Learning

Authors: Han, X., Hu, Z., Li, C., Li, C., Sun, B.

Journal: Journal of Thermal Biology

Year: 2023

Citations: 9

📝An Integrated Graph Model for Spatial–Temporal Urban Crime Prediction Based on Attention Mechanism

Authors: Hou, M., Hu, X., Cai, J., Han, X., Yuan, S.

Journal: ISPRS International Journal of Geo-Information

Year: 2022

Citations: 13

📝Risk Prediction of Theft Crimes in Urban Communities: An Integrated Model of LSTM and ST-GCN

Authors: Han, X., Hu, X., Wu, H., Shen, B., Wu, J.

Journal: IEEE Access

Year: 2020

Citations: 32

Vikas Verma – Production – Best Researcher Award

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Prof. Dr. Vikas Verma - Production - Best Researcher Award 

Aqila Technologies and Integration Solutions Pvt Ltd (ATIS) - India

Author Profile

Scopus

Orcid

🎓 Early Academic Pursuits

Prof. Dr. Vikas Verma began his academic journey with an exceptional record in science and mathematics, graduating with distinction from St. Mary’s Convent School, Dhampur, and St. Gabriel’s Academy, Roorkee. His passion for engineering led him to pursue a B.Tech. in Mechanical Engineering from Moradabad Institute of Technology, where he achieved commendable results. He further honed his technical expertise with an M.Tech. in Mechanical Engineering from Krishna Institute of Technology, achieving an impressive 8 CGPA. His thirst for knowledge culminated in a Ph.D. from the prestigious Indian Institute of Technology (IIT) Roorkee, followed by a Postdoctoral fellowship at NUST “MISiS” Moscow, Russia, where he delved into cutting-edge research.

💼 Professional Endeavors

Prof. Verma’s professional career spans cross-functional roles in project management, contracts administration, technical proposals, and leadership. He has managed and led large multidisciplinary teams, overseeing technical and commercial projects with exceptional problem-solving and conflict resolution skills. His expertise in production processes and vendor management has made significant contributions to industrial and academic projects alike. As a researcher and academic leader, he has presented at esteemed institutions like the Bhabha Atomic Research Centre and Defence Metallurgical Research Lab, solidifying his reputation as a versatile professional.

🔬 Contributions and Research Focus

Prof. Verma’s research contributions encompass mechanical engineering, tribology, and advanced materials, with a particular focus on production efficiency and sustainability. His studies have been published in high-impact journals like Elsevier, Springer, and Wiley, reflecting his commitment to advancing scientific knowledge. He has also presented groundbreaking research at international conferences in Malaysia, Canada, and the USA, earning accolades like Best Paper Awards and funding from prestigious organizations. His work in high-temperature ceramic matrix composites and sustainable development materials has paved the way for innovations in the field.

🌍 Impact and Influence

Prof. Verma’s influence extends globally, as evidenced by his awards and roles in international forums. He was recognized as a Distinguished Scholar by the Scientific Award Committee Europe in 2021 and won the Young Scientist competition at NUST “MISiS” Moscow in 2018. His expertise as an expert reviewer for international projects and his participation in technical program committees have further established his stature. Prof. Verma’s research on production sustainability has had a transformative impact on industrial and academic domains, inspiring peers and students alike.

🏆Academic Cites

With numerous SCI-indexed publications and book chapters, Prof. Verma’s work enjoys high citations in research platforms like ResearchGate and Google Scholar. His contributions are highly regarded in academic circles, with his research cited extensively by professionals and institutions worldwide.

🌟 Legacy and Future Contributions

Prof. Verma’s legacy lies in his ability to bridge academic research with practical applications in production engineering and management. His leadership in sustainable industrial processes, combined with his passion for mentoring, ensures that his contributions will continue to shape the future of engineering and technology. As a session chair at global summits and a prolific researcher, he is poised to drive innovation and inspire the next generation of engineers.

📝Production

Throughout his illustrious career, Prof. Verma has significantly advanced the field of production, emphasizing sustainable practices and efficiency. His research on production systems has had a lasting impact, contributing to industrial advancements and academic progress alike.

Notable Publication

📝Effect of Processing Routes on Physical and Mechanical Properties of Advanced Cermet System

Authors: Verma, V., García-Hernández, M., Luna-Domínguez, J.H., Monteiro Júnior, S., Câmara Cozza, R.

Journal: Ceramics

Year: 2024

Citations: 1

📝Performance Analysis of a Li-Ion Battery Using Generic Electro-thermal Model Under Different Temperature and Charging/Discharging Environment

Authors: Verma, V., Kumar, B.

Series: Lecture Notes in Electrical Engineering

Year: 2024

Citations: 0

📝Numerical Analysis of Design Factors in Manufacturing for Improved Energy Efficiency

Authors: Dwivedi, A.S., Kumar, P., Luna-Domínguez, J.H., Cozza, R.C., Verma, V.

Book: Sustainability in Smart Manufacturing: Trends, Scope, and Challenges

Year: 2024

Citations: 0

📝Synergism Between Tribological Parameters – “Micro-Abrasive Concentration Level,” “Micro-Abrasive Particle Type,” and “Liquid Type” of a Micro-Abrasive Slurry Composition on the Micro-Abrasive Wear Behaviour of Fe-30Al-6Cr (at.%) Iron Aluminide Alloy

Authors: de Paula, A.F.M., Borges, D.F.L., da Silva, F.C., Schön, C.G., Cozza, R.C.

Journal: Wear

Year: 2023

Citations: 3

📝Assessment of Micro-Abrasive Wear Tribological Properties of H10 Tool-Steel Under Conditions of “Constant Normal Force ⇒ Variable Pressure” and “Constant Pressure ⇒ Variable Normal Force”

Authors: de Matos Macedo, M., Luna-Domínguez, J.H., Verma, V., Schön, C.G., Cozza, R.C.

Journal: Wear

Year: 2021

Citations: 7