Mahdi Zarnoush | Renewable Energy | Best Researcher Award

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Mr. Mahdi Zarnoush | Renewable Energy
| Best Researcher Award

Researcher at K. N. Toosi University of Technology, Iran.

Mahdi Zarnoush is a dedicated researcher in Mechanical Engineering at K. N. Toosi University of Technology, specializing in energy conversion, renewable energy, and energy storage systems. With a strong academic foundation and a passion for sustainable development, he has contributed to over 10 research projects and published four ISI-indexed journal papers, with additional work under review. His innovative research advances efficient and optimized energy solutions, aligning with global energy transition goals. As a journal reviewer and active member of scientific associations, he plays a pivotal role in maintaining academic integrity and excellence. His scholarly contributions and active engagement in the research community make him a compelling candidate for the Best Researcher Award.

🌍 Professional Profile:

ORCID

Scopus

Google scholar 

🏆 Suitability for the Best Researcher Award :

Mahdi Zarnoush exemplifies the qualities of a top-tier researcher through his impactful work in energy conversion and storage technologies. His contributions to the field, including peer-reviewed journal publications and a forthcoming book chapter, demonstrate both depth and innovation. Zarnoush’s research addresses pressing global energy challenges by enhancing energy system efficiency and sustainability. His active involvement in academic collaborations, reviewing duties for respected journals, and leadership in scientific associations highlight his professional maturity and scholarly commitment. These accomplishments, coupled with his drive for excellence in renewable energy and energy transition research, mark him as highly suitable for the Best Researcher Award and position him as a rising leader in sustainable energy solutions.

🎓 Education :

Mahdi Zarnoush holds an M.Sc. in Mechanical Engineering with a specialization in Energy Conversion from K. N. Toosi University of Technology, a premier institution in Iran. He earned his B.Sc. in Mechanical Engineering from the University of Kashan, where he built a strong foundation in thermodynamics, fluid mechanics, and system design. During his graduate studies, Zarnoush focused on advanced energy systems, optimizing energy conversion processes and exploring renewable technologies. His academic path was marked by a commitment to research, sustainability, and innovation, enabling him to contribute meaningfully to both theoretical and applied aspects of energy engineering. His educational background provides the technical depth and scientific rigor necessary for impactful contributions in academia and industry alike.

🏢 Work Experience :

Mahdi Zarnoush is currently a Research Associate at K. N. Toosi University of Technology, where he has led and contributed to over ten academic research projects in energy systems and sustainable technologies. His expertise spans energy conversion, renewable integration, and energy storage modeling. Zarnoush has also served as a reviewer for reputable journals, such as the Journal of Energy Storage, reflecting peer recognition of his analytical skills and subject expertise. He collaborates with leading researchers on energy optimization projects and contributes regularly to the university’s Mechanical Engineering Scientific Association. His experience blends rigorous research with practical insight, advancing the development of efficient energy systems and contributing to the knowledge base in clean energy transitions.

🏅 Awards and Honors :

While formal awards are not currently listed, Mahdi Zarnoush’s academic recognition is reflected in his publication record, peer review contributions, and active involvement in leading research initiatives. His four published ISI-indexed journal papers and two under-review manuscripts have garnered increasing citations, indicating growing impact. His selection as a reviewer for high-impact journals like the Journal of Energy Storage speaks to his credibility and expertise in the field. Zarnoush’s participation in multiple high-level academic projects and his contribution to an upcoming book chapter further demonstrate his recognized value in the research community. His work continues to receive acknowledgment through scholarly collaboration, invitations for academic contributions, and consistent involvement in scientific development platforms.

🔬 Research Focus :

Mahdi Zarnoush’s research is centered on the development of advanced, sustainable, and efficient energy systems. His key areas include energy conversion technologies, renewable energy integration, energy transition strategies, and storage systems. He emphasizes optimization and modeling of thermal and hybrid energy systems to improve reliability and reduce environmental impact. Zarnoush’s work bridges theory and application, targeting real-world solutions to pressing energy issues. He explores innovations in smart energy systems and sustainable infrastructure, with a commitment to facilitating the global shift toward clean energy. Through academic publications, ongoing research projects, and cross-disciplinary collaborations, he aims to contribute foundational knowledge and practical tools that accelerate progress in the fields of renewable energy and sustainable technology.

📊 Publication Top Notes:

📘 Comparative evaluation of advanced adiabatic compressed gas energy storage systems
📅 Year: 2023 | 📊 Cited by: 43 | 📰 Journal of Energy Storage

📘 Comparative investigation for sustainable freshwater production in hybrid multigrid systems based on solar energy
📅 Year: 2024 | 📊 Cited by: 11 | 📰 Journal of Cleaner Production

📘 Integration of Emerging Technologies in Next-Generation Electric Vehicles: Evolution, Advancements, and Regulatory Prospects
📅 Year: 2025 | 📊 Cited by: 8 | 📰 Results in Engineering

📘 Comprehensive examination of a green hybrid biomass-integrated compressed air energy storage system with PEM hydrogen production across various operating modes
📅 Year: 2025 | 📊 Cited by: 2 | 📰 Journal of Energy Storage

Changxin Yu | Digital technology | Best Researcher Award

Published on by Engineering Scientist

Dr. Changxin Yu | Digital technology
|Best Researcher Award

 

Dr at Beijing Institute of Technology ,China.

Changxin Yu is a Ph.D. candidate in Applied Economics at Beijing Institute of Technology. Her research bridges agricultural economics and digital technology, focusing on their combined impact on productivity, sustainability, and innovation. She has investigated public perceptions of GMOs, the role of R&D in Chinese pesticide firms, and the productivity effects of modern biotechnology. Yu applies empirical models, including machine learning, to analyze how digital technologies—such as industrial robots and digital trade—contribute to green development and economic transformation. Her work is published in leading journals, including Technological Forecasting and Social Change. With interdisciplinary expertise, she continues to explore how digital tools can enhance agricultural and manufacturing sector performance, contributing to China’s sustainable economic growth.



🌍 Professional Profile:


Scopus


🏆 Suitability for the Best Researcher Award




 






































Changxin Yu exemplifies the qualities sought in a Best Researcher Award recipient. Her work seamlessly integrates applied economics, digital innovation, and sustainability—a rare and valuable interdisciplinary nexus. She has produced high-impact research on topics such as industrial robots’ role in green growth and the effect of digital trade on agricultural productivity. Her ability to apply cutting-edge empirical and machine learning techniques enhances the credibility and applicability of her findings. With several prestigious publications and international collaborations, her research has advanced understanding of sustainable development and digital adoption in agriculture and manufacturing. Yu’s academic rigor, innovative approach, and commitment to real-world challenges position her as a strong candidate for the award.






































🎓 Education 


Changxin Yu has a robust academic background that spans economics, management, and agriculture. She is currently pursuing a Ph.D. in Applied Economics at Beijing Institute of Technology (2019–present), focusing on digital and green economic development. She also holds a Master’s degree in Management Science and Engineering (2017–2019) from the same institution. Her undergraduate education was completed at Beijing Forestry University, where she earned a Bachelor’s degree in Agricultural and Forestry Economic Management (2013–2017). Her multidisciplinary training enables her to address complex challenges across agricultural economics, digital transformation, and environmental sustainability. Through this academic trajectory, Yu has cultivated a deep understanding of the socioeconomic implications of digital tools in agriculture and industry, strengthening her research versatility.


🏢 Work Experience 


Changxin Yu has a diverse range of research experience rooted in interdisciplinary projects. She has worked on USDA-funded studies examining the impact of public and private R&D investment on total factor productivity in China. Her academic and project-based research focuses on digital adoption in agriculture, industrial innovation, and environmental sustainability. She has analyzed the economic effects of GMOs, digital trade, and robotics in manufacturing. Through these experiences, she has developed strong skills in data analysis, policy assessment, and empirical modeling. Yu’s contributions extend beyond academia to inform policy and innovation strategies in agriculture and industry. Her professional journey is marked by her involvement in internationally collaborative projects and publications in well-regarded scientific journals.


🏅 Awards and Honors 


While specific awards are not listed, Changxin Yu has earned academic recognition through her involvement in high-impact research projects and publications in reputable journals such as Technological Forecasting and Social Change. Her selection for a USDA-funded research initiative reflects her capabilities and potential for influencing policy and practice. Additionally, her ongoing doctoral research incorporates advanced econometric and machine learning techniques, distinguishing her in the field of applied economics. Yu’s research contributions have gained attention in academic and policy circles for their relevance to green development, digital transformation, and agricultural innovation. Given the scope and impact of her work, she is likely to be a strong contender for academic and research honors in the near future.


🔬 Research Focus 
































































Changxin Yu’s research sits at the intersection of applied economics, digital transformation, and sustainable development. She focuses on how digital technologies, such as industrial robots and digital trade platforms, impact agricultural productivity and green growth. Her current doctoral research investigates the effects of modern biotechnology on agricultural total factor productivity (TFP), using robust empirical and machine learning methods. Yu also examines the economic implications of public and private R&D investments, particularly in agriculture and manufacturing. Her work has explored public attitudes toward GMOs and the economic impact of carbon abatement via digitalization. By analyzing how emerging technologies reshape economic systems, her research provides valuable insights for policy makers, academics, and industries working toward sustainable innovation.




























































































📊 Publication Top Notes:


Citation:
Deng, H., Yu, C., Pray, C. E., & Jin, Y. (Forthcoming). How is China Shaping Global Food Supply Chains? Insights from the Seed Industry. European Review of Agricultural Economics.


Authors:


    

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    Haiyan Deng
    

    • 

  • 

    Changxin Yu
    

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  • 

    Carl E. Pray
    

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  • 

    Yanhong Jin* (Corresponding author)
    

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Year:
Forthcoming (Accepted, not yet published)


Citation:
Deng, H., Huang, Z., Wu, J., Güneri, F., Shen, Z., & Yu, C.* (2025). Harnessing the power of industrial robots for green development: Evidence from China’s manufacturing industry. Technological Forecasting and Social Change, 215, 124099. https://doi.org/10.1016/j.techfore.2025.124099


Authors:


    

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    Haiyan Deng
    

    • 

  • 

    Zhonghua Huang
    

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  • 

    Jian Wu
    

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  • 

    Fatma Güneri
    

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  • 

    Zhiyang Shen
    

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  • 

    Changxin Yu* (Corresponding author)
    

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Year:
2025


Citation:
Hu, R., Yu, C., Jin, Y., Pray, C., & Deng, H. (2022). Impact of government policies on research and development (R&D) investment, innovation, and productivity: Evidence from pesticide firms in China. Agriculture, 12(5), 709. https://doi.org/10.3390/agriculture12050709


Authors:


    

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    Ruifa Hu
    

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    Changxin Yu
    

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    Yanhong Jin
    

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    Carl Pray
    

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  • 

    Haiyan Deng
    

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Year:
2022

	


	

	






	
	

		


NTUMBA  LOBO | Energy Conversion | Best Researcher Award
			

				Published on  by Engineering Scientist			

		
	


	

		
 Ms. NTUMBA LOBO| Energy Conversion

| Best Researcher Award


PhD student at Nagoya Institute Of Technology, Japan


Ntumba Lobo is an accomplished researcher currently pursuing her PhD in Electrical and Mechanical Engineering at Nagoya Institute of Technology, Japan. With a strong background in semiconductor materials, nuclear physics, and hydrogen storage, she has conducted extensive research in carrier lifetime measurements and material characterization. Her academic journey spans institutions in Japan, Germany, Ethiopia, and DR Congo, demonstrating her global research exposure. She has participated in prestigious conferences, presenting her work on semiconductors and energy materials. As a research assistant at Nagoya Institute of Technology, she actively contributes to advancing semiconductor technology. Her dedication, technical expertise, and innovative contributions position her as a leading figure in materials science and applied physics.


🌍 Professional Profile:


Orcid


google scholar


🏆 Suitability for the Best Researcher Award 


Ntumba Lobo is a distinguished candidate for the Best Researcher Award, given her exceptional contributions to semiconductor materials and energy storage research. Her work has significantly advanced the understanding of carrier lifetime in semiconductors, benefiting applications in solar cells and optoelectronic devices. She has presented at renowned international conferences, authored impactful publications, and collaborated on interdisciplinary projects. Her research at Nagoya Institute of Technology and Friedrich-Alexander-Universität Erlangen-Nürnberg has led to innovations in semiconductor processing and characterization techniques. She possesses strong analytical skills, experimental expertise, and a commitment to scientific progress, making her a deserving recipient of this honor.


🎓 Education 


Ntumba Lobo’s academic credentials reflect her expertise in materials science, physics, and engineering. She is currently pursuing a PhD in Electrical and Mechanical Engineering at Nagoya Institute of Technology, Japan (2025), focusing on semiconductor materials. She completed her Master’s in Science and Engineering at Shibaura Institute of Technology, Japan (2020), specializing in hydrogen storage materials. Her M.Sc. in Nuclear Physics from Addis Ababa University, Ethiopia (2016) involved research on fusion reactions in nuclear materials. She earned her B.Sc. (Honors) in Physics from the University of Kinshasa, DR Congo (2012), conducting research on non-destructive concrete characterization using ultrasound. Additionally, she was an exchange student at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany, where she worked on semiconductor crystallization techniques.


🏢 Work Experience 


Ntumba Lobo has extensive experience in research, teaching, and industry internships. Since 2020, she has been a Research Assistant at Nagoya Institute of Technology, working on semiconductor material development. She has completed internships at OSM Group Co., Ltd. (Japan) and For Delight Co. Ltd. (Japan), where she gained practical expertise in materials engineering and electronics. Previously, she conducted nuclear physics research at Centre Régional de Recherche Nucléaire, Kinshasa. She also served as a teaching assistant at the University of Kinshasa, mentoring students in physics and engineering principles. Her experience includes scientific research, material characterization, and experimental physics, making her a well-rounded researcher in semiconductor technology and applied materials science.


🏅 Awards and Honors 


Ntumba Lobo has received numerous recognitions for her contributions to semiconductor materials, nuclear physics, and hydrogen storage research. She has been invited to present at international conferences, including the Solid-State Devices and Materials Conference (Japan), MRS Tanzania Conference, and Metal-Hydrogen Systems Symposium (China). Her research on carrier lifetime measurements and recombination velocity in lithium tantalate has been widely cited. She has been awarded scholarships and research grants to support her studies at Nagoya Institute of Technology, Shibaura Institute of Technology, and Addis Ababa University. Her work in materials engineering, energy storage, and semiconductor characterization has earned her fellowships and international research funding, cementing her reputation as a leading researcher.


🔬 Research Focus 


Ntumba Lobo’s research spans semiconductor materials, energy storage, and nuclear physics. She specializes in carrier lifetime analysis, surface recombination velocity, and semiconductor device optimization. Her contributions to metal halide perovskites, lithium tantalate, and hydrogen storage materials have direct applications in renewable energy and electronics. She has developed novel techniques to mitigate carrier trapping effects, enhancing the efficiency of solar cells and optoelectronic devices. Her interdisciplinary approach integrates solid-state physics, material science, and applied engineering to develop next-generation semiconductor devices and energy storage solutions. With a strong background in both experimental and computational methods, she continues to drive innovation in semiconductor characterization and sustainable energy materials.


📊 Publication Top Notes:


    

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    Lobo, N., Takasaki, A., Mineo, K., Klimkowicz, A., & Goc, K. (2019). Stability investigation of the γ-MgH₂ phase synthesized by high-energy ball milling. International Journal of Hydrogen Energy, 44(55), 29179-29188.
    

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    Kimilita, P. D., Hayashi, M., Nkomba, H. M., Fukunishi, H., Lobo, N., Mizuno, T., … (2023). Stable quasi-solid-state zinc-ion battery based on the hydrated vanadium oxide cathode and polyacrylamide-organohydrogel electrolyte. Electrochimica Acta, 462, 142702.
    

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    Lobo, N., Kawane, T., Matt, G. J., Osvet, A., Shrestha, S., Ievgen, L., Brabec, C. J., … (2022). Trapping effects and surface/interface recombination of carrier recombination in single-or poly-crystalline metal halide perovskites. Japanese Journal of Applied Physics, 61(12), 125503.
    

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    Lobo, N. T. (2016). Study of ²⁰Ne induced reaction in ⁵⁹Co: Incomplete and complete fusion. Addis Ababa University.
    

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    Lobo, N., Klimkowicz, A., & Takasaki, A. (2020). Effect of TiO₂ + Nb₂O₅ + TiH₂ catalysts on hydrogen storage properties of magnesium hydride. MRS Advances, 1-11.
    

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    Lobo, E. N. (2010). La super symétrie en physique quantique. Université de Kinshasa.
    

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    Lobo, N., Matt, G. J., Osvet, A., Shrestha, S., Kanak, A., Fochuk, P., Brabec, C. J., … (2024). Mitigation of carrier trapping effects on carrier lifetime measurements with continuous-wave laser illumination for Pb-based metal halide perovskite materials. Journal of Applied Physics, 135(7).
    

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