Dingke Zhang | Micro nano laser materials and devices | Best Researcher Award

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Dr. Farzad Ghafoorian | Micro nano laser materials and devices | Best Researcher Award

professor, Chongqing Normal University , China

🎓 Dingke Zhang, Doctor of Science & Professor at Chongqing Normal University, specializes in high-performance organic laser devices. She earned her Ph.D. from Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, followed by six years of postdoctoral research at Northeast Normal University and RMIT University, Australia. Her expertise spans micro/nano optoelectronic materials and devices, amplified spontaneous emission, and ultrafast spectroscopic dynamics. She has published extensively in top-tier journals such as Advanced Materials, Advanced Functional Materials, and Small. Recognized for her contributions, she received Chongqing’s Third Prize for Natural Science and First Prize for Innovation in Industry-University-Research Cooperation.

Profile

scopus

Education 🎓

📍 Ph.D. in Applied Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences 🏅Postdoctoral Research in Micro/Nano Optoelectronics, Northeast Normal University, China 🏅Research in Optoelectronic Materials & Devices, RMIT University, Australia 🏅

Experience 🏆

🔹 Professor, Chongqing Normal University (Present) 📚 Postdoctoral Researcher, RMIT University, Australia (Optoelectronic Materials) 🔬 Postdoctoral Researcher, Northeast Normal University, China (Micro/Nano Devices) 🧪

Awards & Honors 🏅

🏆 Third Prize, Natural Science Award, Chongqing  First Prize, Innovation Achievement in Industry-University-Research, Chongqing 🌟

Research Focus 🔬

🔬 High-performance organic laser devices 🌈 Amplified spontaneous emission & ultrafast spectroscopic dynamics ⚛️ Micro/Nano optoelectronic materials  Perovskite materials, organic polymers & dyes 🏅

Publications

1️⃣ High-density superhard carbon stabilized by strain-induced phase transitionDiamond and Related Materials, 2025 (0 Citations)
2️⃣ Enhanced NIR amplified spontaneous emission in black-phase FAPbI3 perovskite filmsAdvanced Functional Materials, 2025 (0 Citations)
3️⃣ V doping for optimized hydrogen evolution in NiO nanosheetsKexue Tongbao, 2024 (0 Citations)
4️⃣ In situ Ni@NiO Schottky heterojunctions for electrocatalysisJournal of Materials Chemistry C, 2024 (0 Citations)
5️⃣ Phase distribution in Ruddlesden–Popper perovskite films for enhanced ASEOptics Letters, 2024 (0 Citations)
6️⃣ Flexible MAPbBr3 perovskite films with mechanical reliabilityApplied Physics Letters, 2024 (1 Citation)
7️⃣ 2D Halide Perovskites for Resistive Switching Memory & SynapsesAdvanced Science, 2024 (6 Citations)
8️⃣ Phase distribution in quasi-2D perovskite films for nanosecond-pumped ASEScience China Materials, 2024 (2 Citations)
9️⃣ Color emission manipulation in perovskites via anion exchangeAdvanced Materials, 2024 (5 Citations)
🔟 Stable MAPbI3 film construction for high-performance ASEChemical Engineering Journal, 2024 (1 Citation)

Conclusion

Dr. Dingke Zhang is a strong candidate for the Best Researcher Award, particularly in the field of micro/nano laser materials and optoelectronics. Her groundbreaking research, high-impact publications, and prestigious awards make her highly competitive. Strengthening industry collaborations, technology commercialization, and leadership in large-scale research initiatives would further enhance her standing in global research excellence.

Dandan Cui | 2D materails | Best Researcher Award

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Ms.Dandan Cui | 2D materails | Best Researcher Award

Assistant research fellow at  Beihang University, China

🌟 Name: Dr. Dandan Cui 🎓 Title: Ph.D. in Physics 🏫 Current Position: Assistant Professor, Beihang University (2020–Present) 📚 Expertise: Two-dimensional materials, surface physicochemistry, and photocatalytic materials. 📖 Publications: Author of highly cited works in journals such as Journal of Materials Chemistry A and ACS Sustainable Chemistry & Engineering. 💡 Contribution: Pioneered advancements in photocatalytic materials, vacancy engineering, and photoelectrocatalysis.

Professional Profiles:

scopus

Education🎓

Ph.D. in Physics: Focused on surface physicochemistry and advanced materials research. 📖 Master’s Degree: Specialization in material engineering with research on photocatalysts. 🏫 Undergraduate Degree: Studied Physics with high distinction, fostering a strong foundation in theoretical and experimental science. 📘 Achievements: Graduated with honors and consistently recognized for academic excellence throughout studies.

Experience 🏫

2020–Present: Assistant Professor at Beihang University, advancing research in photocatalytic materials. 🔬 Collaborative Research: Published groundbreaking studies on BiOCl and BiVO4, influencing the field of material science. 📘 Leadership Roles: Mentored graduate students and coordinated multi-disciplinary research projects. 🌐 Outreach: Active participation in international conferences and workshops on advanced materials.

Awards and Honors 🏅

Highly Cited Paper Award: For influential research in Journal of Materials Chemistry A. 🎖️ Young Researcher Award: Recognized for contributions to photocatalysis and material design. 🏆 Research Excellence Award: Honored by Beihang University for innovative achievements. 📜 Invited Reviewer: Prestigious journals in materials science and chemistry.

Research Focus 🧪

Photocatalytic Materials: Design and development of novel semiconductors for energy applications. 🌀 Two-Dimensional Materials: Exploration of physicochemical properties for enhanced functionality. 💡 Vacancy Engineering: Leveraging defects for improved photocatalytic and photoelectrochemical properties. 🔬 Surface Wettability: Investigating its role in photoelectrocatalytic oxygen evolution. 🌍 Sustainability: Advancing green energy technologies through material innovation.

✍️Publications Top Note :

Combination of nanoparticles with single-metal sites synergistically boosts co-catalyzed formic acid dehydrogenation
📝 Authors: Shi, Y.; Luo, B.; Sang, R.; Beller, M.; Li, X.
📚 Journal: Nature Communications, 2024, 15(1), 8189.
Focus: Combines nanoparticles with single-metal sites for formic acid dehydrogenation, enhancing catalytic performance.

Emerging Amorphized Metastable Structures to Break Limitations of 2D Materials for More Promising Electrocatalysis
📝 Authors: Gao, Y.; Liang, H.; Xu, H.; Huang, W.; Lin, L.
📚 Journal: ACS Energy Letters, 2024, 9(8), 3982–4002.
Focus: Reviews metastable 2D materials for improved electrocatalysis.

Emerging Advances of Liquid Metal toward Flexible Sensors
📝 Authors: Qin, J.; Cui, D.; Ren, L.; Shi, Y.; Du, Y.
📚 Journal: Advanced Materials Technologies, 2024, 9(14), 2300431.
Focus: Discusses liquid metal applications in flexible sensors.

Cobalt-Doped Aluminum Aerogels as Photocatalyst Fabricated by a Liquid Metal Reaction Method
📝 Authors: Xu, Q.; Lv, Z.; Zhu, Y.; Hao, W.; Du, Y.
📚 Journal: Journal of Chemical Education, 2024, 101(7), 2850–2856.
Focus: Explores cobalt-doped aerogels for photocatalysis.

Synchronous Pressure-Induced Enhancement in the Photoresponsivity and Response Speed of BiOBr
📝 Authors: Yue, L.; Cui, D.; Tian, F.; Du, Y.; Liu, B.
📚 Journal: Acta Materialia, 2024, 263, 119529.
Focus: Demonstrates enhanced photocatalytic properties of BiOBr under pressure.

Synergistic Surface Engineering of BiVO4 Photoanodes for Improved Photoelectrochemical Water Oxidation
📝 Authors: Wang, S.; Shi, Z.; Du, K.; Du, Y.; Hao, W.
📚 Journal: Small Methods, 2024.
Focus: Investigates BiVO4 photoanodes for water oxidation.

Constructing 2D Bismuth-Based Heterostructure for Highly Efficient Photocatalytic CO2 Reduction
📝 Authors: Xu, R.-H.; Jiang, H.-Y.; Cui, D.-D.; Hao, W.-C.; Du, Y.
📚 Journal: Tungsten, 2024.
Focus: Designs bismuth-based heterostructures for CO2 reduction.

Atomically Dispersed Cobalt/Copper Dual-Metal Catalysts for Synergistically Boosting Hydrogen Generation from Formic Acid
📝 Authors: Shi, Y.; Luo, B.; Liu, R.; Beller, M.; Li, X.
📚 Journal: Angewandte Chemie – International Edition, 2023, 62(43), e202313099.
Focus: Enhances hydrogen generation using dual-metal catalysts.

Bismuth-Based Semiconductor Heterostructures for Photocatalytic Pollution Gases Removal
📝 Authors: Wang, Y.; Du, K.; Xu, R.; Hao, W.; Du, Y.
📚 Journal: Current Opinion in Green and Sustainable Chemistry, 2023, 41, 100824.
Focus: Reviews bismuth-based materials for gas pollution removal.

Operando Reconstruction-Induced CO2 Reduction Activity and Selectivity for Cobalt-Based Photocatalysis
📝 Authors: Zhao, K.; Pang, W.; Jiang, S.; Fu, D.; Zhao, H.
📚 Journal: Nano Research, 2023, 16(4), 4812–4820.
Focus: Studies cobalt-based photocatalysis for CO2 reduction.

Conclusion

Dr. Dandan Cui is a highly suitable candidate for the Best Researcher Award, given her outstanding contributions to two-dimensional materials and photocatalytic material science. Her impactful publications, innovative research, and leadership in collaborative projects make her a strong contender. To further enhance her candidacy, she could expand her recognition, secure research funding, and increase her interdisciplinary and societal contributions. With her trajectory, she is poised to make even more significant advances in her field and inspire future researchers.

Yuecun wang | nanomechanics of semiconductor | Best Researcher Award

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Assoc Prof Dr. Yuecun wang | nanomechanics of semiconductor | Best Researcher Award

Associate Professor at Xi’an Jiaotong University, China

Yue Wang is an accomplished Assistant Professor at Xi’an Jiaotong University’s School of Material Science and Engineering. With a deep focus on nanomechanics and electrochemical reactions, his research has contributed significantly to materials science, particularly in magnesium alloys and battery technologies. Wang completed his Ph.D. in 2018, building on extensive hands-on experience with TEM and other nanotechnology techniques. He is a recipient of numerous prestigious awards and has several high-impact publications in journals like Nature Communications and Science. His work pushes the boundaries of materials science, enabling innovations in corrosion resistance and energy storage. 🧪📚🔬

 

Publication Profile

scholar

Education🎓📖🌍

Yue Wang holds a Ph.D. in Materials Science and Engineering from Xi’an Jiaotong University, where he started his studies in 2013. He completed a Bachelor’s in the same field from Northwestern Polytechnical University in 2013. He was also a visiting student at Lawrence Berkeley National Lab, University of California, Berkeley, from February 2017 to February 2018. During this period, he gained valuable exposure to cutting-edge research environments, broadening his knowledge of nanomaterials and real-time electrochemical reactions. His academic journey showcases a strong foundation in both theoretical and applied materials science.

Experience🏫🧑‍🏫🛠️

Yue Wang has been with Xi’an Jiaotong University’s School of Material Science and Engineering since 2018, where he now serves as a tenured Assistant Professor. Prior to his tenure, he worked extensively in in-situ environmental TEM and nanomechanical testing, producing significant contributions to battery technologies and corrosion resistance. His research focuses on Si-based materials, Mg alloys, and novel microscopy techniques. He also served as a Teaching Assistant at the university, where he taught the course on mechanical properties of materials. His career reflects a strong emphasis on research and education in materials science.

Awards and Honors🏆

Yue Wang has received several prestigious awards throughout his career. He was recognized for his high-impact contributions in materials science, including publishing in leading journals such as Science and Nature Communications. His innovative research in the field of nanomechanics and corrosion resistance has earned him multiple research grants and distinctions within academic circles. He has also been an invited speaker at several international conferences, where his work on Si-based materials and Mg alloys has been widely lauded. His dedication to pushing the boundaries of materials research continues to earn him accolades. 🥇🎖️

Research Focus 🔬🧲📐

Yue Wang’s research is primarily centered on the mechanical properties and nanostructures of Si-based materials and metals. His work utilizes in-situ quantitative nanomechanics to probe these materials at the micro and nano levels. Wang’s expertise extends to environmental TEM studies, particularly in observing real-time electrochemical reactions in lithium/sodium ion batteries and developing anti-corrosion techniques for magnesium alloys. He also specializes in advanced microscopy, nanomechanical testing, and fabrication using Focused Ion Beam (FIB) technology, contributing to improved corrosion resistance and battery efficiency.

Publication  Top Notes

  • Exceptional plasticity in the bulk single-crystalline van der Waals semiconductor InSe
    Science, 2020, 369 (6503), 542-545
    Citations: 220
    This work explores the mechanical properties of InSe, a van der Waals semiconductor, highlighting its exceptional plasticity, a critical factor for flexible electronics.
  • Turning a native or corroded Mg alloy surface into an anti-corrosion coating in excited CO2
    Nature Communications, 2018, 9 (1), 4058
    Citations: 98
    The paper introduces a method to enhance the corrosion resistance of Mg alloys through a CO2-based treatment.
  • In situ TEM study of deformation-induced crystalline-to-amorphous transition in silicon
    NPG Asia Materials, 2016, 8 (7), e291-e291
    Citations: 81
    A detailed study using transmission electron microscopy (TEM) to observe how crystalline silicon transitions to an amorphous state under mechanical stress.
  • Chestnut-like SnO2/C nanocomposites with enhanced lithium-ion storage properties
    Nano Energy, 2016, 30, 885-891
    Citations: 66
    This research investigates nanocomposites for improving lithium-ion battery performance.
  • Tension–compression asymmetry in amorphous silicon
    Nature Materials, 2021, 20 (10), 1371-1377
    Citations: 52
    The work explores the mechanical behavior of amorphous silicon, especially the asymmetry between tension and compression.
  • High-throughput screening of 2D van der Waals crystals with plastic deformability
    Nature Communications, 2022, 13 (1), 7491
    Citations: 45
    This paper focuses on the search for two-dimensional van der Waals materials with superior plasticity for next-generation flexible electronics.
  • Thermal treatment-induced ductile-to-brittle transition of submicron-sized Si pillars fabricated by focused ion beam
    Applied Physics Letters, 2015, 106 (8)
    Citations: 36
    The study analyzes the impact of thermal treatment on the mechanical properties of silicon structures at the submicron scale.
  • Ceramic nanowelding
    Nature Communications, 2018, 9 (1), 96
    Citations: 34
    This paper discusses the novel concept of ceramic nanowelding, which could have implications for nanomanufacturing and electronics.
  • In situ transmission electron microscopy study of the electrochemical sodiation process for a single CuO nanowire electrode
    RSC Advances, 2016, 6 (14), 11441-11445
    Citations: 26
    In this work, the authors investigate the sodiation process in copper oxide nanowires, which is relevant for battery technology.
  • In situ TEM observing structural transitions of MoS2 upon sodium insertion and extraction
    RSC Advances, 2016, 6 (98), 96035-96038
    Citations: 21
    This research reveals how MoS2 structures change during sodium ion insertion, providing insights for energy storage applications.

Conclusion

The candidate’s expertise in nanomechanics, in-situ TEM, and nanomaterial testing positions them as a leader in their field, making them a worthy candidate for the Best Researcher Award. Their ability to innovate and apply cutting-edge techniques in materials science, combined with their teaching prowess, sets them apart. Expanding their international collaborations and research impact would further elevate their profile for such prestigious recognition.

Xiangyan Zhang | wafer defect detection | Best Researcher Award

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Dr. Xiangyan Zhang | wafer defect detection | Best Researcher Award

Dr. Beijing University of Posts and Telecommunications , China

Xiangyan Zhang, a Ph.D. student at the School of Intelligent Engineering and Automation, Beijing University of Posts and Telecommunications, has a robust academic background with a Master of Engineering degree from Beijing University of  Science and Technology (2023). His research focuses on wafer defect detection and machine vision, with significant contributions including DMWMNet, a dual-branch multi-level convolutional network achieving high performance in wafer map defect detection. Zhang has published 4 SCI papers, 2 EI conference papers, holds 2 invention patents, and 3 software copyrights. He collaborates with the China Academy of Engineering Physics

 

Professional Profiles:

Orcid

Academic and Professional Background 📚👩‍🎓

In June 2023, I was awarded a Master of Engineering degree from Beijing University of Science and Technology, and in September 2023, I commenced my Ph.D. studies at Beijing University of Posts and Telecommunications. To date, I have published 4 SCI papers, 2 EI conference papers, granted 2 invention patents, and obtained 3 software copyrights.

Research and Innovations 🔬💡

Completed/Ongoing Research Projects 🚀Vision-based robotic grasp detection projectWafer defect detection project

Citation Index 📑

Zhang, X., Jiang, Z., Yang, H., Mo, Y., Zhou, L., Zhang, Y., Li, J., Wei, S. (2024). DMWMNet: A novel dual-branch multi-level convolutional network for high-performance mixed-type wafer map defect detection in semiconductor manufacturing. Computers in Industry, 161, 104136

✍️Publications Top Note :

Patent Authorization Number: ZL202210817429.4
A six-degree-of-freedom grasping detection algorithm based on semantic segmentation networks.

Patent Application Number: 202310654572.0
A grasping detection network based on RGBD images and semantic segmentation for residual fitting.

Zhang, Xiangyan, et al. (2024): DMWMNet: A novel dual-branch multi-level convolutional network for high-performance mixed-type wafer map defect detection in semiconductor manufacturing. Computers in Industry, 161, 104136.

Zhang Qinjian†, Zhang Xiangyan†, et al. (2022): TMSCNet: A three-stage multi-branch self-correcting trait estimation network for RGB and depth images of lettuce. Frontiers in Plant Science, 13.

Wu Yalin, Zhang Qinjian, Zhang Xiangyan, et al. (2022):* Novel binary logistic regression model based on feature transformation of XGBoost for type 2 Diabetes Mellitus prediction in healthcare systems. Future Generation Computer Systems-the International Journal of Escience, 129: 1-12.

Zhang Wu, Li Haiyuan, Zhang Xiangyan, et al. (2021):* Research progress and development trend of surgical robot and surgical instrument arm. International Journal of Medical Robotics and Computer Assisted Surgery, 17(5).

Zhang Xiangyan, Li Haiyuan, et al. (2021):* Kinematics Analysis and Grasping Simulation of a Humanoid Underactuated Dexterous Hand. 2021 IEEE International Conference on Robotics and Biomimetics (ROBIO): 55-60.

Zhang Qinjian, Zhang Xiangyan, Li Haiyuan (2022):* A Grasp Pose Detection Network Based on the DeepLabv3+ Semantic Segmentation Model. International Conference on Intelligent Robotics and Applications (ICIRA): 747-758. (EI)

Mr Paulo Henrique Chiberio | dielectric ceramic tapes containing hBN for applications on high-frequency substrates

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Mr Paulo Henrique Chiberio: Leading Researcher in dielectric ceramic tapes containing hBN for applications on high-frequency substrates

Congradulations, Mr Paulo Henrique Chiberio, on winning the esteemed  Best Researcher award  Sciencefather!

Mr Paulo Henrique Chiberio, Federal University of Rio Grande do Norte (UFRN).

Congratulations, Mr Paulo Henrique Chiberio In recognition of your outstanding contributions to the field of dielectric ceramic tapes containing  hBN for applications on high-frequency substrates we extend our heartfelt congratulations on receiving the prestigious  Best Researcher Award. by ScienceFather Your dedication to advancing knowledge in clinical dielectric ceramic tapes containing hBN for applications on high-frequency substrates, and the exploration of dielectric ceramic tapes containing hBN for applications on high-frequency substrates is truly commendable.Your commitment to excellence and tireless efforts in research have not only enriched our academic community but have also contributed significantly to the broader scientific community.

May this award serve as a testament to your exceptional skills, unwavering dedication, and the impactful influence you’ve had on your field.  We look forward to witnessing your continued success and the many more groundbreaking contributions to come.Once again, congratulations on this well-deserved achievement!

 

Professional Profiles:

 

 

Education:

 

2012-08-08 to 2016-08-13 | Engenheiro (Departamento de Engenharia Mecânica)

Universidade Federal do Rio Grande do Norte: Natal, Rio Grande do Norte, BR

 

Research projects:

2023-06-15 | journal-article   Filmes produzidos com compostos de tungstênio para aplicações elétricas e optoeletrônicas: uma revisão Revista Principia – Divulgação Científica e Tecnológica do IFPB

2021-12-08 | journal-article  Alumina-NbC composites fabricated by spark plasma sintering Revista Principia – Divulgação Científica e Tecnológica do IFPB