Ze Yang | self-powered system | Best Researcher Award

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Assist Prof Dr. Ze Yang | self-powered system | Best Researcher Award

Assist Prof Dr at Tsinghua University, China

Dr. Ze Yang is a Postdoctoral Research Fellow at Tsinghua University’s Intelligence and Biological Machinery Laboratory, specializing in energy harvesting and mechanical engineering. With a Ph.D. from China University of Geosciences (Beijing), he has developed innovative systems like triboelectric nanogenerators (TENGs) and energy-harvesting backpacks. His work focuses on electrostatic adsorption and charge-pumping methods. Dr. Yang has published extensively in top-tier journals like Nano Energy and ACS Nano, contributing significantly to advancements in nanoenergy. He has earned multiple awards for his research excellence and is fluent in Mandarin and English.

Publication Profile

scholar

Education🎓

Dr. Ze Yang holds a Ph.D. in Mechanical Engineering from China University of Geosciences (Beijing), obtained in 2022. Before that, he earned a Master’s degree in Mechanical Engineering from Beihua University (2018) and a Bachelor’s degree from Hubei University of Art and Science (2016). During his Ph.D., he participated in a joint training program with Tsinghua University, gaining hands-on experience in cutting-edge research on mechanical systems and energy harvesting technologies. Currently, he is a Postdoctoral Research Fellow at Tsinghua University. 📖

Experience⚙️

Dr. Ze Yang’s research journey began with his role as a Graduate Research Assistant at Beihua University, focusing on rehabilitation bed systems. At Tsinghua, he designed advanced TENGs and energy-harvesting systems. His projects include developing load-suspended and charge-pumping backpacks, which use 3D printing and innovative designs to reduce impact and improve energy efficiency. As a Postdoctoral Fellow, he continues his groundbreaking work on non-contact electrostatic induction and wind energy harvesting. He is proficient in mechanical drawing and 3D printing. 🛠️🎯🚀

Awards and Honors 🏆

Dr. Ze Yang has received numerous accolades for his academic and research excellence. These include the prestigious National Scholarship for Excellent Academic Performance (Top 2%) in 2017, First Prize for “Excellent Academic Report” at Tsinghua University in 2021, and the Best Poster Award at the 5th International Conference on Nanoenergy and Nanosystems in 2021. His innovative work on energy-harvesting technologies has also garnered wide recognition within the mechanical engineering field.

Research Focus🌍

Dr. Ze Yang’s research focuses on mechanical engineering, triboelectric nanogenerators (TENGs), and energy harvesting. His groundbreaking work includes developing charge-pumping systems and non-contact electrostatic induction for energy generation from human motion and environmental sources like wind. He also focuses on minimizing material fatigue and improving output efficiency through innovative methods like charge pumping and voltage stabilization. His research has major implications for renewable energy and impact reduction technologies.

 

Publication  Top Notes

Technological Progress and Commercial Applications: Choi et al. (2023) have explored the evolution of TENG technology and its transition from laboratory innovations to commercial applications. Their review in ACS Nano covers breakthroughs in material development, system integration, and potential industrial uses .

Flexible Tactile Sensors: Song et al. (2022) introduced a flexible triboelectric tactile sensor capable of recognizing material and texture simultaneously. This innovation in Nano Energy highlights the sensor’s potential use in robotics and prosthetics .

Energy Harvesting from Wearables: Yang et al. (2021) presented a “power backpack” designed for energy harvesting and reduced load impact. The device utilizes a TENG to generate electricity from human movement, providing a practical energy source for portable electronics .

Charge Pumping and Voltage Stabilization: Research led by Yang et al. (2021) focuses on improving the efficiency of TENGs by incorporating a charge pumping mechanism, stabilizing the voltage, and boosting the current output .

Biosystems and Self-powered Devices: Shen et al. (2022) reviewed the application of TENGs in biosensing and self-powered systems. They emphasize challenges like device miniaturization and material optimization, as well as their use in health monitoring and wearable technologies .

Conclusion

Z. Yang is undoubtedly a strong candidate for the Best Researcher Award, with a proven track record of innovation, excellence in mechanical engineering, and significant contributions to energy harvesting technologies. His strengths in system design, theoretical analysis, and practical applications make him an asset to the field. By expanding his collaborative network and incorporating AI technologies into his research, Yang has the potential to further enhance his contributions and solidify his status as a leading researcher.

Jianzhi Li | Fiber sensing | Best Researcher Award

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Prof. Jianzhi Li | Fiber sensing | Best Researcher Award

 professor at Shijiazhuang Tiedao University,  china

Jianzhi Li is a Professor at the Key Laboratory of Structural Health Monitoring and Control, Shijiazhuang Tiedao University, specializing in fiber sensing technology and structural health monitoring. 🌉 She earned her Ph.D. from Beijing Jiaotong University and later held an academic post at Osaka University, Japan. 🚄 Her work focuses on enhancing railway infrastructure safety through innovative sensing techniques. 📚 Jianzhi has published numerous SCI papers and authored several books. 🚀 Her groundbreaking contributions in the field have earned her multiple awards, cementing her status as a leading researcher in fiber optics and structural health.

Publication Profile

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Education 🎓

Jianzhi Li earned her Ph.D. in Structural Diagnosis and Optimization from Beijing Jiaotong University in 2009. 📚 Her doctoral studies focused on identifying and solving complex structural challenges in engineering. 🌏 She further broadened her academic horizons by serving as an Associate Professor at Osaka University in Japan between 2014 and 2015. 🏛️ This role allowed her to collaborate internationally and enhance her expertise in fiber optic sensing technology. ✨ Throughout her education, she gained deep insights into the intersections of structural health and smart material technologies, which now form the cornerstone of her research endeavors.

Experience 🏢 

Jianzhi Li currently serves as a Professor at Shijiazhuang Tiedao University’s Key Laboratory of Structural Health Monitoring and Control. 🚇 She has led several high-impact projects, particularly in fiber optic sensing and structural health monitoring for railways and bridges. 🌉 During 2014–2015, she was an Associate Professor at Osaka University, contributing to international collaborations. 📊 With over 20 patents to her name and numerous published works in prestigious journals, her experience spans industry-relevant research and cutting-edge academic advancements. 💼 She also leads the China National Key Research and Development Program, contributing to the enhancement of railway infrastructure safety.

Awards and Honors  🏆

Jianzhi Li has received numerous awards, including the First Prize for Technological Invention in Hebei Province. 🌟 She was recognized with the “Best Paper” award at the 6th International Conference on Optoelectronic Sensing. 🎖️ Her outstanding research contributions have earned her prestigious honors such as the Hebei Outstanding Youth Talent Award and a place in the Hebei 333 Talent Program. 📜 She has authored three books, including an internationally recognized English-language textbook, and her innovative work in fiber sensing and structural health has placed her among the top researchers in China. 🌍 Her membership in the Chinese Optical Society and other professional groups reflects her impact on the scientific community.

Research Focus🔬

Jianzhi Li’s research is centered on fiber optic sensing technologies and structural health monitoring. 🚇 Her work addresses critical infrastructure challenges, including heavy-duty railway bridges and roadbeds. 🔧 She has been instrumental in advancing fiber-based sensing systems for monitoring railway hazards and enhancing safety through predictive detection. 🛰️ Her research extends to smart materials and their applications in dynamic environments, focusing on the early detection of structural anomalies. 🚀 Jianzhi’s contributions are practical and forward-looking, pushing the boundaries of electromagnetic and optical sensing in engineering, leading to the development of more robust and resilient civil structures.

Publication  Top Notes

Evaluation of Concrete Carbonation Based on a Fiber Bragg Grating Sensor
📅 Published: December 2023
📰 Journal: Micromachines
🌐 DOI: 10.3390/mi15010029
Contributors: Jianzhi Li, Haiqun Yang, Handong Wu

This paper introduces a novel approach for monitoring concrete carbonation using Fiber Bragg Grating (FBG) sensors, a crucial method for assessing structural durability.

A Long-Term Monitoring Method of Corrosion Damage of Prestressed Anchor Cable
📅 Published: March 2023
📰 Journal: Micromachines
🌐 DOI: 10.3390/mi14040799
Contributors: Jianzhi Li, Chen Wang, Yiyao Zhao

This research presents a long-term monitoring technique for detecting corrosion in prestressed anchor cables, improving infrastructure safety and longevity.

A Combined Positioning Method Used for Identification of Concrete Cracks
📅 Published: November 2021
📰 Journal: Micromachines
🌐 DOI: 10.3390/mi12121479
Contributors: Jianzhi Li, Bohao Shen, Junjie Wang

This paper discusses a hybrid method for accurately identifying concrete cracks, advancing structural health monitoring.

A Spiral Distributed Monitoring Method for Steel Rebar Corrosion
📅 Published: November 2021
📰 Journal: Micromachines
🌐 DOI: 10.3390/mi12121451
Contributors: Jianzhi Li, Yiyao Zhao, Junjie Wang

Conclusion

Professor Jianzhi Li stands out as a strong candidate for the Best Researcher Award due to her exemplary research contributions, innovative spirit, and recognized leadership in the field of fiber sensing and structural health monitoring. Her achievements reflect not only her commitment to advancing science and technology but also her potential to further influence the field. With targeted improvements in professional engagement and industry collaboration, she could amplify her impact even more.

Assist Prof Dr Raed AlSaleh | Structural Health Monitoring

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Assist Prof Dr Raed AlSaleh: Leading Researcher in Structural Health Monitoring.
 Assist Prof Dr Raed AlSaleh, German Jordanian University

Assistant Professor Dr. Raed AlSaleh, associated with the German Jordanian University, stands as a prominent figure in academia. With a distinguished background, Dr. AlSaleh excels in his role, bringing a wealth of knowledge and expertise to the educational landscape. His contributions span both teaching and research, enriching the academic experience for students. Known for his commitment to excellence, Dr. AlSaleh actively engages in advancing knowledge within his field, fostering a dynamic learning environment at the German Jordanian University. As an influential educator, he plays a vital role in shaping the intellectual landscape and contributing to the university’s academic reputation.

 

Professional Profiles:

 

 

The impact of her research is evident in citation metrics and indices from google scholar:

Cited by : All-379

citations- 211

h-index-7

 

Education:

  •  PhD in Civil Engineering, in the major of Structures (Health monitoring and Control of Structures), University of Pavia, 2011, PaviaItaly.M.Sc in Civil Engineering, in the major of Structures, Jordan University of Science and Technology, 2006, Irbid-Jordan.B.Sc in Civil Engineering (Roads, Bridges, and Airports), Al-Balqa’ Applied University, 2003, Amman-Jordan.

 

Experience:

9/2018- present: Assistant Professor, Civil and Environmental Engineering Department-SNREM, German Jordanian University (GJU), Jordan.

6/2019- 9/2022: Head of Civil and Environmental Engineering Department-SNREM, German Jordanian University (GJU), Jordan.

9/2017- 9/2018: Part-time lecturer, German Jordanian University, (GJU) Jordan.

9/2017-9/2018: Assistant Professor, Hussain Technical University (HTU), Jordan.

9/2011-9/2017: Assistant Professor, Department of Civil Engineering, Al-Zaytoonah University, Jordan.

9/2013-9/2014: Head of Civil Engineering Department, Al-Zaytoonah University, Jordan.

6/2011-8/2013: Part-time lecturer, Department of Civil Engineering, Faculty of Engineering Technology-AlBalqa University, Jordan.

5/2010-2/2011: Research assistant, Department of Civil and Structural Engineering, Polytechnic of Hong Kong University, Hong Kong.

Professional Experience:

  • 3/2007-1/2008: Steel Structure Site Engineer; Consolidated Contractors International Company (CCIC). RGX project, Ras-Laffan Industrial City-Qatar.
  • 7/2006-11/2006: Design Engineer, e-construct consulting company; Precast & Pre-stressed concrete Designer and Workshop drawer. CairoEgypt.
  • 3/2005-11/2005: Design and supervision Engineer (Cast in Situ. Concrete Structures), Manaseeb Consulting Office. Amman-Jordan.

 

Publications and Top Noted:

Raed AlSaleh, Ayman Nasir, Ibrahim Abu-Alshaikh, 2023, “Investigating fractional damping effect on Euler-Bernoulli beam subjected to a moving load”, Shock and Vibration, vol. 2023, 19 pages.

Raed AlSaleh, Nour Atieh, Ayman Nasir, 2023, “Vibration Response of Euler-Bernoulli-Damped Beam with Appendages Subjected to a Moving Mass”, Journal of the Mechanics and Physics of Solids, Accepted for publication.

Mohammad M Hamed, Adnan Al-Masri, Zakariya M Dalala, Raed J AlSaleh, 2021,”Modeling the Time Duration Until the Adoption of Residential Rooftop Solar Photovoltaic Systems”, Journal of Energy Resources Technology, vol (144)4, pp. 041302.

R. AlSaleh, Y. Q. Ni, 2020, Condition Assessment of a Supertall Structure by an Improved Hilbert-Huang Transform and Empirical Mode Decomposition Method, International Journal of Sustainable Materials and Structural Systems, vol (4) 2/3/4, pp. 244-267.

R. AlSaleh, and C. Fuggini, 2020, Combining GPS and Accelerometers’ Records to Capture Torsional Response of Cylindrical Tower, Smart Structures and Systems, vol (25)1, pp. 111-122.