Lin Cheng | High energy physics | Best Researcher Award

Mrs. Lin Cheng | High energy physics | Best Researcher Award

North university of China, China

👨‍🎓 Profile

Orcid

📚 Early Academic Pursuits

Lin Cheng began their academic journey with a BSc in Information and Communication Engineering from the North University of China in 2010. Demonstrating a strong foundation in engineering, they advanced to earn both MSc (2013) and PhD (2021) degrees at the Key Laboratory for Physical Electronics and Devices, Xi’an Jiaotong University, a hub for innovation in photonics and electronic sciences. Lin’s doctoral studies were pivotal, focusing on cutting-edge research in light modulation and surface plasmon technologies, laying the groundwork for their future contributions.

🌟 Professional Endeavors

As an Associate Professor at the School of Semiconductor and Physics, North University of China since 2021, Lin Cheng has become a leading academic in photonics and metamaterials. Their international experience includes a visiting student tenure at the University of Ottawa, Canada, from September 2019 to October 2020, where they collaborated on advanced light propagation control techniques.

🔬 Contributions and Research Focus

Lin’s research is centered on metasurfaces, surface plasmon applications, nonlinear optics, epsilon-near-zero materials, and multi-wave mixing in Rubidium, contributing significantly to fields like light modulation and color display technologies. Their work has advanced the understanding of nonlinear antennas, tunable meta-absorbers, and innovative approaches to beam manipulation.

🌍 Impact and Influence

Lin Cheng’s work has made a significant impact in both academia and applied physics. Her published journal papers, including “Superscattering, Superabsorption, and Nonreciprocity in Nonlinear Antennas” (ACS Photonics, 2021), have become vital resources for researchers worldwide. Her studies on plasmonic colors and dynamic tunable radiation have influenced emerging metamaterial technologies, inspiring innovations in optics, and photonics.

📊 Academic Citations

With a robust portfolio of 10 journal publications, Lin’s work has earned numerous citations, reflecting the scientific community’s recognition of their contributions to optics and photonics. Their most notable paper, Superscattering, Superabsorption, and Nonreciprocity in Nonlinear Antennas, published in  ACS Photonics (2021), showcases their innovative approach to solving complex optical challenges.

💻 Technical Skills

Lin Cheng excels in cutting-edge simulation and modeling tools such as COMSOL and MATLAB for optical designs. Her technical expertise spans plasmonic structure fabrication, multi-wave mixing analysis, and epsilon-near-zero metamaterial development, making her a leader in physics, optical and photonic research.

🏆 Legacy and Future Contributions

With four funded projects totaling RMB 490,000, Lin is poised to make transformative contributions to light modulation and metasurface technologies. Their National Natural Science Foundation of China grant (2024–2026) supports research into nonlinear metasurfaces, signaling their commitment to shaping the future of photonics. Lin’s legacy will be defined by their dedication to advancing optical sciences and mentoring future researchers. 

Top Noted Publications

Superscattering, Superabsorption, and Nonreciprocity in Nonlinear Antennas
  • Authors: Lin Cheng, Rasoul Alaee, Akbar Safari, Mohammad Karimi, Lei Zhang, Boyd Robert
    Journal: ACS Photonics
    Year: 2021
Manipulation of a Ring-shaped Beam via Spatial Self- and Cross-phase Modulation in Lower Intensity
  • Authors: Lin Cheng, Zhaoyang Zhang, Lei Zhang, Danmeng Ma, Gaoguo Yang, Tian Dong, Yanpeng Zhang
    Journal: Phys. Chem. Chem. Phys.
    Year: 2019
Extrinsic Polarization-enabled Covert Plasmonic Colors using Aluminum Nanostructures
  • Authors: Lin Cheng, Kun Wang, Jianyong Mao, Xiao Ming Goh, Zhiqin Chu, Yanpeng Zhang, Lei Zhang
    Journal: Ann. Phys. (Berl.)
    Year: 2019
Competition and Energy Transfer between Forward and Backward Four-Wave Mixing via Atomic Coherence
  • Authors: Lin Cheng, Yaling Tian, Yize Liu, Yanpeng Zhang, Kangkang Li, Yang Liu, Ruizhou Liu
    Journal: IEEE J. Quantum Electron.
    Year: 2017
Modulation of the High-order Lagurre-Gaussian Beam in Dressing Four-Wave Mixing
  • Authors: Lin Cheng, Xing Liu, Yanyong Sun, Kun Wang, Lei Zhang, Yanpeng Zhang
    Journal: IEEE J. Quantum Electron.
    Year: 2018
Nonlinear Antennas with Tunable Radiation Patterns in Near Infrared
  • Authors: Lin Cheng, Lei Zhang
    Journal: Journal of Synthetic Crystals
    Year: 2021

 

 

 

Min Yang | High Energy physics | Best Researcher Award

Prof. Min Yang | High Energy physics | Best Researcher Award

PHD at Qingdao University of Technology, Qingdao, China

Dr. Min Yang, based at Qingdao University of Technology, Qingdao, China, is a distinguished researcher recognized as a Highly Cited Researcher for Clarivate in 2022 and listed among the World’s Top 2% Scientists in 2023. With an H-index of 45, she has authored 83 influential papers, including 39 ESI HOT/Highly Cited papers, accumulating 8205 WOS citations. As the chief expert of the Qingdao Nanolubricant Quasi Dry Manufacturing Expert Workstation, her expertise spans grinding, precision machining, biomedical material processing, and the preparation of wearable sensors. Additionally, she has authored 4 books, contributing significantly to her field. High Energy physics

Professional Profiles:

Scopus

Researchgate

Education

phd, Qingdao University of Technology, Qingdao, China

Accolades

Min Yang is a Highly Cited Researcher for Clarivate in 2022 and recognized as one of the World’s Top 2% Scientists in 2023. She has made significant contributions, with 83 highly influential papers to her name, including 39 ESI HOT/Highly Cited papers. Her impressive H-index of 45 reflects the impact of her work, which has garnered a total of 8205 WOS citations. High Energy physics

Expertise

Her expertise extends to serving as the chief expert of the Qingdao Nanolubricant Quasi Dry Manufacturing Expert Workstation.

Publications

In addition to her prolific paper output, Min Yang has authored 4 books, 2 of which were published by Science Press.

Research Interest

Grinding and precision machining, Biomedical material processing, Preparation of wearable sensors

Research Focus:

Dr. Min Yang’s research focuses on various aspects of advanced manufacturing technology, particularly in the field of grinding and precision machining. Her recent work includes investigations into the grindability evaluation of ultrasonic-assisted grinding of silicon nitride ceramic using minimum quantity lubrication based SiO2 nanofluid. Additionally, she has contributed significantly to understanding material removal mechanisms and force modeling in ultrasonic vibration-assisted micro-grinding of biological bone. Dr. Yang’s expertise extends to exploring heat transfer mechanisms in cryogenic air minimum quantity lubrication grinding of titanium alloy and developing temperature field models in surface grinding. She continues to advance knowledge in these areas through her research at Qingdao University of Technology, Qingdao, China. High Energy physics

Publications

  1. Temperature field model in surface grinding: a comparative assessment, Publication: 2023.
  2. Material Removal Mechanism and Force Modeling in Ultrasonic Vibration-Assisted Micro-Grinding Biological Bone, Publication: 2023.
  3. Convective Heat Transfer Coefficient Model Under Nanofluid Minimum Quantity Lubrication Coupled with Cryogenic Air Grinding Ti–6Al–4VPublication: 2020.
  4. Nanobiolubricant grinding: a comprehensive reviewPublication: 2024.
  5. Kinematics and improved surface roughness model in milling, Publication: 2022.
  6. Graphene-based flexible wearable sensors: mechanisms, challenges, and future directions, Publication: 2023.
  7. Grindability Evaluation of Ultrasonic Assisted Grinding of Silicon Nitride Ceramic Using Minimum Quantity Lubrication Based SiO2 NanofluidPublication: 2024.
  8. Magnetic Bearing: Structure, Model and Control strategyPublication: 2023.
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Kader Dağcı Kıranşan | High energy physics | Best Researcher Award

Assoc Prof Dr. Kader Dağcı Kıranşan, High energy physics, Best Researcher Award

PHD at Atatürk University, Turkey

Associate Professor Kader Dağcı Kiranşan is an accomplished academic with expertise in Analytical Chemistry. Holding a Ph.D. and M.Sc. from Atatürk University, he specializes in topics such as thin films, graphene, and electrochemical synthesis. Currently an Associate Professor at Atatürk University’s Faculty of Science, he has also served as a Doctor Lecturer and Research Assistant. Throughout his career, he has supervised impactful theses, focusing on areas like sustainable water purification and hydrogen production. His research contributions, especially in flexible electrodes and nanomaterial applications, showcase his commitment to advancing analytical chemistry and its practical applications. High energy physics

Professional Profiles:

Orcid Profile

Googlescholar profile

ResearchGate Profile

 

Education📚

Ph.D. in Analytical Chemistry: Awarded on 12/June/2015 from Atatürk University/Institute of Science and Science. Thesis title: “Poly(Pyronin Y) thin films and freestanding graphene/poly(pyronin y)/silver nanoparticle Preparation and characterization of electrodes and their use in amperometric determination of nitrite.” Thesis Advisor: Murat Alanyalıoğlu. M.Sc. in Analytical Chemistry: Degree awarded on 4/June/2010 from Atatürk University/Institute of Science and Science. Thesis title: “Electrochemical synthesis of methylene blue ordered monolayer structures and characterization.” Thesis Advisor: Murat Alanyalıoğlu.

Academic Positions:🏆

Associate Professor: Currently holding the position at Atatürk University/Faculty of Science/Department of Chemistry since 2020. Doctor Lecturer: Currently holds a position at Atatürk University/Faculty of Science/Department of Chemistry/Analytical Chemistry since 2019. Research Assistant: Worked as a research assistant at Atatürk University/Faculty of Science/Department of Chemistry/Analytical Chemistry from 2009 to 2019.

Research Focus:

Associate Professor Kader Dağcı Kiranşan’s research primarily focuses on the development and application of advanced materials for electrochemical sensing and energy storage. His expertise spans the preparation of innovative electrode materials, such as free-standing and flexible graphene/Ag nanoparticles/poly (pyronin Y) hybrid paper, and MoS2/rGO composite paper. Additionally, his work explores the electrochemical properties of polymeric films, including catalase-Fe3O4/reduced graphene oxide paper. He has made significant contributions to the field, particularly in the design of flexible electrodes for amperometric detection of various analytes, such as nitrite, NADH, folic acid, and hydrogen peroxide. His research demonstrates a commitment to advancing electroanalytical chemistry and materials science for diverse applications. High energy physics

Publications (TOP NOTES)

Design of metal phosphite decorated sponge materials for high‐performance flexible battery‐type supercapacitors,  cited by: 1,  Publication date: 2022.

 

Design and synthesis of a MnCo-MOF modified flexible 3D graphene sponge electrode for an asymmetric supercapacitor with high power and energy density, cited by: 1,  Publication date: 2023.

 

Three-dimensional FeNiP decorated graphene sponge: A novel flexible electrode for high-performance asymmetric supercapacitor, cited by: 2,  Publication date: 2023.

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