Excellence in Research Award

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Introduction

The Excellence in Research Award is a distinguished recognition granted to individuals who have demonstrated outstanding contributions to research and innovation. This award honors researchers whose work has significantly advanced scientific knowledge, technological development, and societal progress. By recognizing individuals with exceptional dedication to research excellence, the award aims to inspire a culture of intellectual curiosity and transformative discoveries. It serves as a platform to celebrate the efforts of those who have contributed meaningfully to their field and encouraged future generations to pursue groundbreaking research.

Award Overview

The Excellence in Research Award is designed to honor individuals who have exhibited exemplary achievements in research across multiple disciplines. This includes natural sciences, social sciences, engineering, medicine, and interdisciplinary studies. Candidates who have conducted pioneering research, developed innovative methodologies, or introduced novel solutions to pressing global challenges are ideal recipients of this prestigious recognition. The award not only acknowledges individual brilliance but also emphasizes the importance of research in shaping industries, policies, and public understanding. By highlighting the remarkable work of outstanding researchers, the award fosters a culture of excellence and continuous scientific advancement.

Eligibility

Eligible candidates for the Excellence in Research Award must have a proven track record of research excellence with significant contributions in their respective fields. The nominee should possess a doctoral degree or equivalent qualification and have dedicated a substantial portion of their career to research. Their work should be well-documented through peer-reviewed publications, patents, or other scholarly outputs. Candidates should demonstrate a measurable impact on their field, including influence on academic discourse, industry application, or public policy. The award is open to individuals from universities, research institutions, and corporate R&D sectors. Those who have actively contributed to research mentorship, leadership, and collaborative projects are highly encouraged to apply.

Evaluation Criteria

The Excellence in Research Award follows a comprehensive evaluation process, ensuring that nominees are assessed based on various critical parameters. The originality and significance of the nominee’s research are crucial in determining their eligibility for the award. The evaluation process considers the impact of the research, including citations, patents, real-world applications, and influence on industry or policy-making. The consistency of scholarly contributions, including the quality and depth of research output over time, is also considered. Contributions to mentorship and leadership, particularly in fostering future researchers and interdisciplinary collaborations, are evaluated. The selection process is conducted by a distinguished panel of experts, ensuring that recipients of the award truly represent excellence in research and innovation.

Submission Guidelines

Nominees for the Excellence in Research Award must submit a comprehensive application package that includes a completed nomination form with personal and professional details. A well-structured biography detailing their academic journey, major contributions, and career accomplishments must be included. An abstract summarizing the nominee’s research contributions and key highlights of their work is required. Supporting files such as published research papers, patents, or documented evidence of impactful research must be provided. Additionally, nominees must submit at least two letters of recommendation from distinguished experts or institutions attesting to their contributions and influence. All submissions must be completed within the designated timeline, ensuring that all required documents are included for review by the selection committee.

Recognition

Recipients of the Excellence in Research Award receive a prestigious trophy, a certificate of achievement, and formal recognition through various media channels. Awardees are featured in scientific journals, industry publications, and digital platforms, showcasing their contributions to the research community. They are invited to present their work at high-profile conferences, panel discussions, and symposiums, providing them with opportunities to share their expertise with a global audience. Additionally, award recipients gain access to an exclusive network of leading researchers and innovators, fostering collaboration on future research endeavors and scientific breakthroughs.

Community Impact

The Excellence in Research Award extends its significance beyond individual recognition, emphasizing its impact on the broader scientific and academic community. By acknowledging exceptional research achievements, the award promotes a culture of continuous inquiry and intellectual rigor. It serves as an inspiration for emerging researchers, encouraging them to pursue innovative and impactful studies. The contributions of awardees often extend beyond academia, influencing industries, shaping policy decisions, and enhancing public understanding of scientific advancements. Through mentorship and leadership, distinguished researchers contribute to the growth of young talents, ensuring a sustained legacy of excellence in research.

Biography

Nominees must submit a comprehensive biography providing an overview of their professional journey and contributions. The biography should include the nominee’s full name, current position, and affiliations with academic or research institutions. It should highlight their academic background, including degrees earned and institutions attended. Major research contributions, patents, awards, and significant projects should be discussed. The nominee’s role in mentorship, leadership, and fostering interdisciplinary collaborations should be detailed. Additionally, a personal statement reflecting their research philosophy, aspirations, and future goals should be included to provide insight into their long-term impact on the research community.

Abstract

A well-structured abstract is required, summarizing the nominee’s research contributions and their overall significance. The abstract should outline the scientific problem addressed, its relevance, and the importance of the research. It should describe the methodology employed in the research, emphasizing any novel techniques or innovative approaches. Key findings and results should be concisely presented, showcasing the research’s impact on the scientific community and society. Future implications and potential applications of the research should be discussed, illustrating how the work will continue to influence advancements in the respective field.

Supporting Files

Nominees must provide supporting files that validate their research contributions and achievements. These may include peer-reviewed research publications, patents, and conference proceedings that highlight the significance and applicability of their work. Technical reports and project documentation demonstrating completed or ongoing research projects should be submitted. Letters of recommendation from renowned experts, academic institutions, or industry leaders can further strengthen the nomination. Media coverage, interviews, or recorded presentations that showcase the nominee’s work and its influence on the broader research community may also be included. Any other relevant materials demonstrating the impact and reach of the nominee’s research should be provided in the submission package.

 

 

 

Distinguished Scientist Award

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Introduction

The Distinguished Scientist Award is a prestigious recognition given to individuals who have made groundbreaking contributions to their respective scientific fields. This award honors scientists whose research has significantly influenced knowledge, technology, and societal advancement. Through this distinction, the award aims to celebrate those who have demonstrated exceptional leadership, innovation, and dedication to scientific excellence. By recognizing such contributions, the award not only celebrates past achievements but also inspires future generations of scientists to strive for transformative discoveries.

Award Overview

The Distinguished Scientist Award is conferred upon accomplished researchers whose work has brought about meaningful change in scientific understanding and practical applications. This award spans multiple disciplines, including but not limited to natural sciences, engineering, medicine, and social sciences. Scientists who have contributed to pioneering research, novel methodologies, or innovative solutions that address pressing global challenges are ideal candidates for this honor. The award serves as a testament to the recipient’s lifelong dedication to advancing science, pushing the frontiers of human knowledge, and mentoring the next generation of researchers.

Eligibility

Eligible candidates for the Distinguished Scientist Award must have a well-documented record of scientific achievements that have been recognized at national or international levels. The nominee should possess a doctoral degree or equivalent qualification in a scientific discipline and should have dedicated a significant portion of their career to research. Candidates must demonstrate an extensive history of publications in peer-reviewed journals, patents, or impactful contributions to technological advancements. Additionally, the nominee’s work should reflect a profound impact on their field, influencing both academic circles and industry advancements. Individuals who have actively contributed to scientific collaborations, mentorship, and leadership within their discipline are highly encouraged to apply.

Evaluation Criteria

The Distinguished Scientist Award follows a rigorous evaluation process, assessing nominees based on several critical factors. The originality and novelty of the candidate’s research are paramount, ensuring that their contributions have led to new understandings, innovative methodologies, or breakthrough technologies. The impact of the research is evaluated in terms of citations, industry adoption, policy influence, and overall societal benefits. The consistency and quality of scholarly output are crucial, ensuring that the candidate has maintained excellence throughout their career. Contributions to mentorship and leadership, including efforts in guiding young scientists and fostering research collaborations, are also considered. The selection panel includes esteemed scholars and industry leaders who meticulously review each nomination before finalizing the award recipient.

Submission Guidelines

To be considered for the Distinguished Scientist Award, nominees must submit a comprehensive application package. This includes a completed nomination form detailing their personal and professional background. A well-structured biography that outlines the nominee’s academic journey, major contributions, and career achievements is required. A detailed abstract summarizing the key highlights of their scientific contributions must be included. Supporting files such as research publications, patents, and project reports that demonstrate the impact of their work should be submitted. Additionally, at least two letters of recommendation from distinguished scientists, industry leaders, or academic institutions must be provided to validate the nominee’s influence and achievements. The submission must adhere to the specified deadlines, ensuring that all necessary documents are included for a thorough review.

Recognition

Recipients of the Distinguished Scientist Award receive a prestigious trophy, a certificate of achievement, and official acknowledgment through various media platforms. Awardees are featured in scientific journals, news articles, and digital media, highlighting their groundbreaking work and its impact on the global scientific community. They are also invited to participate in high-profile academic conferences, symposiums, and panel discussions, offering them opportunities to share their insights with fellow scientists and industry leaders. Additionally, awardees gain lifetime membership in an elite network of distinguished scientists, enabling them to collaborate on future research endeavors and policy initiatives that shape scientific progress.

Community Impact

The Distinguished Scientist Award not only recognizes individual excellence but also fosters a broader impact on the scientific community and society at large. By celebrating the accomplishments of leading scientists, the award inspires emerging researchers to pursue innovative and high-impact studies. The contributions of awardees often extend beyond academia, influencing industries, government policies, and public awareness on crucial scientific issues. Through their mentorship and leadership, distinguished scientists help nurture young talents, guiding them toward meaningful research careers. The award also serves as a platform for knowledge exchange, encouraging interdisciplinary collaborations and fostering a culture of continuous learning and discovery.

Biography

Each nominee must submit a comprehensive biography that provides an overview of their professional journey. The biography should include the nominee’s full name, current position, and affiliations with research institutions or organizations. A detailed account of their academic background, including degrees earned and institutions attended, should be provided. Major scientific contributions, publications, patents, and awards should be highlighted. The biography should also discuss the nominee’s role in mentoring, leadership, and involvement in advancing their field of research. Additionally, a personal statement reflecting the nominee’s motivation, research philosophy, and aspirations for the future should be included.

Abstract

A well-structured abstract must be submitted, summarizing the nominee’s research contributions and their significance. The abstract should clearly define the scientific problem addressed, emphasizing its relevance and importance. It should describe the methodology employed in the research, highlighting innovative approaches and techniques used. The key findings and results should be concisely presented, demonstrating the impact of the research on the scientific community and society. Future implications and potential applications of the research should be discussed, showcasing how the work can continue to influence advancements in the field.

Supporting Files

Nominees must submit a collection of supporting files that validate their research contributions and impact. These may include peer-reviewed research papers, conference proceedings, and patents that highlight the originality and applicability of their work. Technical reports and project documentation showcasing completed or ongoing research projects should be included. Testimonials or endorsement letters from recognized experts, industry leaders, or institutions can further strengthen the nomination. Media coverage, interviews, or recorded presentations that highlight the nominee’s work and its influence on the scientific community may also be submitted. Any other relevant materials that demonstrate the significance and reach of the nominee’s research should be included in the submission package.

 

 

 

Innovative Research Award

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Introduction

The Innovative Research Award is a distinguished accolade designed to honor groundbreaking contributions in research across a wide range of disciplines. This award seeks to recognize individuals and teams whose work has demonstrated excellence, creativity, and a profound impact on advancing knowledge, developing new methodologies, and fostering innovation. By celebrating exceptional research, the award aims to inspire scholars, scientists, and professionals to push the boundaries of discovery and technological advancement.

Award Overview

Presented annually, the Innovative Research Award acknowledges researchers who have made significant strides in their respective fields. This award is open to academics, scientists, and industry professionals whose research has introduced novel concepts, methodologies, or technological breakthroughs that contribute to the progress of knowledge and problem-solving on a global scale. It recognizes contributions across various domains, including science, engineering, medicine, social sciences, and interdisciplinary research. Recipients of this award exemplify dedication, innovation, and an unwavering commitment to their fields, setting new benchmarks for excellence.

Eligibility

To be eligible for the Innovative Research Award, nominees must have conducted original research that has resulted in a significant breakthrough or advancement. They must demonstrate a measurable impact of their research in their field or industry and have a minimum of three years of research experience. Nominees should be affiliated with a recognized academic institution, research organization, or industry entity. A detailed nomination form must be submitted, along with supporting documentation that highlights their contributions and achievements.

Evaluation Criteria

The selection committee assesses nominees based on originality and novelty, focusing on how unique and innovative their research contributions are. Impact and relevance play a crucial role in evaluating the significance of the research findings and their applicability in solving real-world challenges. The methodological rigor of the research is examined to ensure scientific accuracy, reliability, and robustness. Interdisciplinary contributions are also considered, particularly if the research bridges multiple disciplines and fosters collaboration. Recognition through citations, patents, and journal publications further strengthens a nominee’s chances of receiving the award.

Submission Guidelines

Nominations for the Innovative Research Award must include a fully completed nomination form available on the official award platform. A comprehensive biography detailing the nominee’s academic and professional journey must be provided. Additionally, an abstract summarizing the research work and its impact is required. Supporting files such as published research papers, patents, and project reports must be submitted to validate the research contributions. At least two letters of recommendation from esteemed professionals or institutions should accompany the nomination to provide credibility and endorsement of the nominee’s work.

Recognition

Awardees of the Innovative Research Award receive a prestigious trophy and an official certificate of achievement. Their contributions are acknowledged through media recognition, including features in scientific journals, newspapers, and digital platforms. Recipients are invited to present their research at international conferences or symposiums, providing them with valuable exposure and networking opportunities. They also gain access to a distinguished community of researchers, industry leaders, and policymakers, facilitating future collaborations and knowledge exchange. The awardees become lifetime members of the Innovative Research Award Hall of Excellence, solidifying their position as pioneers in their fields.

Community Impact

The Innovative Research Award highlights research contributions that address global challenges such as climate change, healthcare advancements, and technological progress. By recognizing and promoting groundbreaking research, the award encourages knowledge-sharing and interdisciplinary collaboration. The impact extends beyond academia, as awardees often influence industry practices, policy recommendations, and industrial advancements. This recognition serves as an inspiration for future generations, motivating young researchers to engage in high-impact research and contribute to societal development.

Biography

Each nominee is required to submit a detailed biography that provides insight into their professional journey. The biography should include the nominee’s full name, current designation, and professional affiliations. It should outline their academic background, detailing degrees obtained and institutions attended. Major research contributions, achievements, and areas of expertise should be highlighted, along with any awards, honors, and recognitions received. The biography should also include a personal statement reflecting the nominee’s motivation, research philosophy, and future aspirations in their field of study.

Abstract

A structured abstract must accompany each nomination, summarizing the research and its significance. The abstract should clearly define the research problem addressed and its relevance to the field. It should describe the methodology employed in the research, highlighting key techniques and approaches used. The findings and results should be concisely presented, emphasizing their impact and contribution to the field. Lastly, the abstract should discuss future implications and potential applications of the research, showcasing its long-term benefits and sustainability.

Supporting Files

Nominees must submit supporting files that substantiate their research contributions. These files may include peer-reviewed research papers and publications that have been recognized in academic or industry circles. Patents, prototypes, or technical reports demonstrating the research outcomes should be included where applicable. Testimonials from experts, industry leaders, or collaborating institutions can provide additional validation of the research’s significance. Media coverage, interviews, or public presentations related to the research further enhance the credibility of the submission. Any other relevant materials that strengthen the nominee’s case and showcase the impact of their work should be included in the submission.

 

 

 

Outstanding Contribution Award

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Introduction

The Outstanding Contribution Award is a prestigious honor designed to recognize individuals and organizations that have made significant and lasting contributions in their respective fields. This award celebrates achievements that demonstrate exceptional dedication, innovation, and impact on society, industry, academia, or community service. By acknowledging outstanding work, the award aims to inspire future generations to strive for excellence and drive positive change.

Award Overview

The Outstanding Contribution Award is presented annually to individuals or teams who have shown exemplary performance and dedication in their profession. The award is open to various fields, including science, technology, medicine, education, social work, and business. The recipients of this award exhibit leadership, perseverance, and commitment to progress in their areas of expertise, setting a high standard for others to follow.

Eligibility

To qualify for the Outstanding Contribution Award, nominees must meet the following criteria:

  • Demonstrate a significant and measurable impact in their respective field.
  • Exhibit innovation, leadership, and dedication toward community or industry advancement.
  • Have a minimum of five years of experience in the relevant domain.
  • Be nominated by a recognized institution, peer, or self-nominated with supporting documentation.
  • Display ethical integrity and a commitment to positive societal change.

Evaluation Criteria

The selection committee assesses nominees based on:

  1. Impact – The degree to which their work has influenced their field or community.
  2. Innovation – The introduction of new ideas, methods, or technologies that have made a difference.
  3. Sustainability – The lasting effects of their contributions and the potential for continued influence.
  4. Leadership – Demonstrated ability to inspire and guide others toward success.
  5. Recognition – Acknowledgment by peers, institutions, or society through publications, awards, or testimonials.

Submission Guidelines

Nominees must submit a detailed application that includes:

  • A completed nomination form available on the official award website.
  • A comprehensive biography detailing the nominee’s background, achievements, and contributions.
  • An abstract summarizing the key aspects of their work and its impact.
  • Supporting files, including research papers, articles, patents, or project reports.
  • Letters of recommendation from at least two recognized professionals or organizations.

Recognition

Award recipients will receive:

  • A trophy or medal signifying their achievement.
  • A certificate of excellence and recognition from the awarding body.
  • Public acknowledgment through press releases, media coverage, and award ceremonies.
  • An opportunity to present their work at a prestigious event or conference.
  • Lifetime membership in the Outstanding Contribution Award Hall of Fame.

Community Impact

The award highlights contributions that have created real-world benefits, such as:

  • Advancing knowledge and research that improves lives.
  • Developing technological solutions that address global challenges.
  • Empowering communities through social work, education, or philanthropy.
  • Driving business growth, economic development, or policy changes that lead to societal improvements.

Biography

A well-structured biography should accompany each nomination, covering:

  • Full name and professional title.
  • Educational background and career milestones.
  • Major achievements and contributions to their field.
  • Any previous recognitions, honors, or publications.
  • A personal statement outlining their philosophy and motivation for their work.

Abstract

Each submission should include an abstract that briefly describes the nominee’s work and its significance. The abstract should cover:

  • The problem or challenge addressed.
  • The approach or methodology used.
  • The results and measurable impact of their work.
  • The future scope and sustainability of their contributions.

Supporting Files

Nominees should provide comprehensive documentation that validates their achievements. Supporting files may include:

  • Research papers or case studies.
  • Patents, product prototypes, or project documentation.
  • Testimonials from beneficiaries, peers, or institutions.
  • Media coverage, interviews, or published articles.
  • Any other relevant proof of contribution.

 

 

 

Guobin Li | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Guobin Li | Agricultural and Biological Sciences | Best Researcher Award

Northwest A&F University | China

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Early Academic Pursuits 📚

Dr. Guobin Li embarked on his academic journey with a strong foundation in agricultural science. He earned his Ph.D. from Huazhong Agricultural University in 2021, focusing on the intricate molecular mechanisms governing plant development. His doctoral research laid the groundwork for his later contributions to horticultural genomics and plant stress physiology.

Professional Endeavors 🎓

Currently serving as an Assistant Professor at Northwest A&F University, Dr. Li is dedicated to unraveling the complexities of tomato fruit development and their responses to environmental stresses. His research delves into temperature and salinity stress tolerance, functional genomics, and the application of biotechnological tools to enhance the resilience of horticultural crops.

Contributions and Research Focus 🔬 

Dr. Li’s work has significantly advanced our understanding of plant molecular responses. His primary research interests include:

  • Investigating the molecular pathways governing tomato fruit development and quality traits.
  • Exploring the genetic and biochemical responses of tomatoes to abiotic stress, including extreme temperatures and salinity.
  • Applying functional genomics and biotechnology to improve crop yield and stress resilience.

His notable studies have identified key regulatory proteins, such as the chloroplast metalloproteinase L2, that influence ethylene-mediated fruit ripening, and DC1 domain proteins that interact with critical regulatory pathways in flower and root development.

Accolades and Recognition 🏆

Dr. Li’s impactful research has been published in prestigious journals, including Journal of Experimental Botany, New Phytologist, Plant Science, and Environmental and Experimental Botany. His findings on polyamine biosynthesis and ionic homeostasis have provided new insights into improving plant stress tolerance, earning him recognition among plant scientists and biotechnologists.

Impact and Influence 🌍

By bridging molecular biology with practical agricultural applications, Dr. Li’s research contributes to global food security and sustainable agriculture. His studies on stress resilience mechanisms are instrumental in developing climate-resilient tomato varieties, addressing challenges posed by climate change and soil degradation.

Legacy and Future Contributions 🔮

Dr. Li’s future endeavors aim to expand the frontiers of plant biotechnology. His work will continue to shape the understanding of plant-environment interactions, with a vision to develop genetically improved crops that thrive under adverse conditions. His contributions hold immense potential for revolutionizing modern horticulture and ensuring agricultural sustainability in the face of environmental challenges.

Publications

  • 📄SlCHP16 promotes root growth and enhances saline-alkali tolerance of tomato
    Author(s): Zhen Kang, Xiangguang Meng, Zhijun Fang, Chunyu Shang, Rihan Wu, Junhong Zhang, Xiaohui Hu, Guobin Li
    Journal: Environmental and Experimental Botany
    Year: 2024

  • 📄The SlWRKY42–SlMYC2 module synergistically enhances tomato saline–alkali tolerance by activating the jasmonic acid signaling and spermidine biosynthesis pathway
    Author(s): Xiaoyan Liu, Chunyu Shang, Pengyu Duan, Jianyu Yang, Jianbin Wang, Dan Sui, Guo Chen, Xiaojing Li, Guobin Li, Songshen Hu, et al.
    Journal: Journal of Integrative Plant Biology
    Year: 2025

  • 📄Genome-Wide Analysis of the DC1 Domain Protein Gene Family in Tomatoes under Abiotic Stress
    Author(s): Guobin Li, Jiao Dang, Jiaqi Pan, Jingyi Liu, Tieli Peng, Guo Chen, Rongqun Wang, Songshen Hu, Xiaojing Li, Xiaohui Hu
    Journal: International Journal of Molecular Sciences
    Year: 2023

  • 📄SlGH3.15, a member of the GH3 gene family, regulates lateral root development and gravitropism response by modulating auxin homeostasis in tomato
    Author(s): Guobin Li
    Journal: Plant Science
    Year: 2023

  • 📄Over-expression of spermidine synthase 2 (SlSPDS2) in tomato plants improves saline-alkali stress tolerance by increasing endogenous polyamines content to regulate antioxidant enzyme system and ionic homeostasis
    Author(s): Guobin Li
    Journal: Plant Physiology and Biochemistry
    Year: 2022

 

Keivan Narooei | Engineering | Editorial Board Member

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Assoc. Prof. Dr. Keivan Narooei | Engineering | Editorial Board Member

K. N. Toosi University of Technology | Iran

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Early Academic Pursuits ✨

Assoc. Prof. Dr. Keivan Narooei's journey into the field of materials science and engineering began with a strong academic foundation. He earned his Bachelor of Science in Materials Science and Engineering from Isfahan University of Technology in 2002. With a keen interest in computational mechanics and finite element modeling, he pursued his Master of Science at the prestigious Sharif University of Technology, completing it in 2004. His academic dedication culminated in a Ph.D. in Finite Element Method (FEM) from the same institution in 2009. His doctoral studies equipped him with a profound understanding of mechanical behavior modeling, setting the stage for his future research contributions.

Professional Endeavors 🌟

Dr. Narooei has established himself as a leading academic and researcher in materials science. He currently serves as an Associate Professor at K. N. Toosi University of Technology, a renowned institution in Iran. Throughout his academic career, he has been instrumental in advancing research in computational modeling, hyperelasticity, and smart materials. His role as a mentor and educator has inspired numerous students to delve into the complexities of materials science and engineering.

Contributions and Research Focus 📚

Dr. Narooei's research encompasses various groundbreaking topics in mechanical behavior analysis and materials modeling. His primary areas of expertise include:

  • Plasticity: Investigating the deformation and mechanical behavior of materials under stress.
  • Shape Memory Polymers (SMPs): Exploring smart materials with the ability to recover their shape upon external stimulus.
  • Self-Healing Hydrogels: Developing bio-composite materials with self-repairing capabilities.
  • Hyperelasticity & Viscoelasticity: Studying advanced materials with unique mechanical responses for biomedical and industrial applications.

His work in these fields has led to numerous influential publications in high-impact journals, contributing significantly to advancements in materials science.

Accolades and Recognition 🏆

Dr. Narooei's research has gained widespread recognition in the academic community. His contributions to 4D printing, smart materials, and bio-composites have been cited extensively. Some of his most notable publications include:

  • "4D printing of shape memory polylactic acid beams: An experimental investigation into FDM additive manufacturing process parameters, mathematical modeling, and optimization" (Journal of Manufacturing Processes, 2023).
  • "A hyperelastic-damage model to study the anisotropic mechanical behavior of coral-hydrogel bio-composite" (Journal of the Mechanical Behavior of Biomedical Materials, 2022).
  • "Strain rate-dependent mechanical metamaterials" (Science Advances, 2020).

His work has received accolades from peers and institutions, recognizing his innovative approach to materials modeling and smart material applications.

Impact and Influence 💪

Dr. Narooei’s research has made a significant impact on the development of advanced materials with real-world applications. His studies on self-healing hydrogels and hyperelastic materials have influenced both biomedical engineering and industrial applications. His work in computational modeling has paved the way for more accurate simulations of material behaviors, essential for designing next-generation smart materials. Beyond research, Dr. Narooei has played a crucial role in mentoring young researchers, guiding them toward impactful scientific contributions. His teaching at K. N. Toosi University of Technology has nurtured a new generation of engineers and scientists specializing in material behavior and computational mechanics.

Legacy and Future Contributions 🔍

Looking ahead, Dr. Narooei continues to push the boundaries of materials science with innovative research in smart and bio-inspired materials. His work in 4D printing is expected to revolutionize manufacturing processes, while his studies on self-healing materials hold promise for medical applications, such as tissue engineering and prosthetics. As an influential figure in his field, Dr. Narooei’s legacy lies in his contributions to cutting-edge materials research and his dedication to fostering academic excellence. His future endeavors will undoubtedly shape the development of smarter, more resilient materials, leaving a lasting impact on both academia and industry.

 

Publications

  • 📄 A micromechanical model to predict the effective thermomechanical behavior of one-way shape memory polymers
    Journal: Mechanics of Materials
    Year: 2025-02
    Authors: M. Bakhtiari, K. Narooei

  • 📄 Investigation of multiplicative decompositions in the form of FeFv and FvFe to extend viscoelasticity laws from small to finite deformations
    Journal: Mechanics of Materials
    Year: 2022-04
    Authors: Marzieh Bahreman, Hossein Darijani, Keivan Narooei

  • 📄 A hyperelastic-damage model to study the anisotropic mechanical behavior of coral-hydrogel bio-composite
    Journal: Journal of the Mechanical Behavior of Biomedical Materials
    Year: 2022-02
    Authors: R. Eghbali, K. Narooei

  • 📄 Strain rate–dependent mechanical metamaterials
    Journal: Science Advances
    Year: 2020-06-17
    Authors: S. Janbaz, K. Narooei, T. van Manen, A. A. Zadpoor

  • 📄 A new hyper-viscoelastic model for investigating rate dependent mechanical behavior of dual cross link self-healing hydrogel
    Journal: International Journal of Mechanical Sciences
    Year: 2019-08
    Authors: A. Ghorbanoghli, K. Narooei

 

Fulvio Mastrogiovanni | Computer Science | Best Researcher Award

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Prof. Dr. Fulvio Mastrogiovanni | Computer Science | Best Researcher Award

University of Genoa | Italy

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Early Academic Pursuits 🎓

Prof. Dr. Fulvio Mastrogiovanni embarked on his academic journey with a strong foundation in engineering and robotics. He earned his Laurea Degree in Computer Engineering from the University of Genoa, Italy, in 2003, demonstrating exceptional promise with a final grade of 108/100. His thirst for knowledge led him to pursue a PhD in Bioengineering, Materials Science, and Robotics at the same university, which he successfully completed in 2008. His doctoral research set the stage for a future dedicated to advancing artificial intelligence (AI) and robotics.

Professional Endeavors 🏛️

A distinguished academic, Prof. Mastrogiovanni has built an illustrious career spanning multiple prestigious institutions worldwide. Since 2018, he has served as an Associate Professor at the University of Genoa, Italy. His scholarly journey includes visiting professorships at esteemed institutions such as Shanghai Polytechnic University, Keio University, and the Japan Advanced Institute of Science and Technology. His contributions extend beyond academia, having played key roles in international robotics programs, including Erasmus Mundus and JEMARO. Additionally, he has been a driving force in the Digital Innovation Hub – Liguria, leveraging technology for societal advancements.

Contributions and Research Focus 🔬

Prof. Mastrogiovanni's research lies at the intersection of AI and robotics, emphasizing human-robot interaction and cognitive robotics. His work in "embodied Artificial Intelligence" seeks to integrate AI-driven cognitive architectures, perception models, and semantic data processing techniques to enhance robotic autonomy and intelligence. He has pioneered efforts in developing cognitive robotic systems that seamlessly interact with humans, revolutionizing the way robots perceive and respond to their environment. His research projects, such as ROBOSKIN and InDex, have significantly contributed to the evolution of robotic intelligence and machine cognition.

Accolades and Recognition 🏆

His excellence has been recognized through numerous prestigious awards. He was honored with the National Award by Associazione Nazionale Giovani Innovatori in 2021 and has received multiple Best Paper Awards at IEEE and international robotics conferences. His groundbreaking work has earned him invitations to deliver keynote talks at global AI and robotics symposiums, solidifying his reputation as a thought leader in the field.

Impact and Influence 🌍

With over 229 publications, including journal articles, conference papers, book chapters, and patents, Prof. Mastrogiovanni has made a profound impact on the scientific community. His research has amassed over 3,352 citations with an h-index of 32 on Google Scholar. His collaborations with international universities and research institutions have fostered global advancements in robotics, influencing both academic discourse and industrial applications.

Legacy and Future Contributions 🚀

As a mentor, Prof. Mastrogiovanni has supervised numerous PhD and MSc students, shaping the next generation of robotics and AI experts. His leadership roles in major research consortia and technology transfer initiatives underscore his commitment to bridging academic research with real-world applications. Moving forward, he aims to push the boundaries of AI-driven robotics, particularly in medical robotics, cognitive architectures, and autonomous systems. His visionary work continues to redefine human-robot interaction, making significant strides towards an AI-empowered future.

 

Publications

  • 📄 A Novel Method to Compute the Contact Surface Area Between an Organ and Cancer Tissue

    • Authors: Alessandra Bulanti, Alessandro Carfì, Paolo Traverso, Carlo Terrone, Fulvio Mastrogiovanni
    • Journal: Journal of Imaging
    • Year: 2025

  • 📄 A Systematic Review on Custom Data Gloves

    • Authors: Valerio Belcamino, Alessandro Carfì, Fulvio Mastrogiovanni
    • Journal: IEEE Transactions on Human-Machine Systems
    • Year: 2024

  • 📄 Enhancing Machine Learning Thermobarometry for Clinopyroxene-Bearing Magmas

    • Authors: Mónica Ágreda-López, Valerio Parodi, Alessandro Musu, Diego Perugini, Maurizio Petrelli
    • Journal: Computers and Geosciences
    • Year: 2024

  • 📄 Digital Workflow for Printability and Prefabrication Checking in Robotic Construction 3D Printing Based on Artificial Intelligence Planning

    • Authors: Erfan Shojaei Barjuei, Alessio Capitanelli, Riccardo Bertolucci, Fulvio Mastrogiovanni, Marco Maratea
    • Journal: Engineering Applications of Artificial Intelligence
    • Year: 2024

  • 📄 A Hierarchical Sensorimotor Control Framework for Human-in-the-Loop Robotic Hands

    • Authors: Lucia Seminara, Strahinja Dosen, Fulvio Mastrogiovanni, Matteo Bianchi, Simon Watt, Philipp Beckerle, Thrishantha Nanayakkara, Knut Drewing, Alessandro Moscatelli, Roberta L. Klatzky, et al.
    • Journal: Science Robotics
    • Year: 2023

 

Liping Liang | Environmental Science | Best Researcher Award

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Prof. Liping Liang | Environmental Science | Best Researcher Award

Changzhou University | China

Author Profile

Scopus

Early Academic Pursuits 🎓

Prof. Liping Liang's journey in environmental science began with her Bachelor's and Master's degrees in Environmental Engineering from Lanzhou University of Technology, where she cultivated a strong foundation in water treatment and pollution control. She further advanced her expertise by earning a Ph.D. in Municipal Engineering from Harbin Institute of Technology in 2014, focusing on innovative water purification technologies. Her academic excellence and dedication to research positioned her as a leader in environmental engineering at an early stage in her career.

Professional Endeavors 🏛️

Prof. Liang's professional trajectory has been marked by significant contributions to academia and research institutions. She has served as an Associate Professor at Changzhou University (2023–Present) in the School of Environmental Science and Engineering, Associate Professor at Shaoxing University (2019–2023) in the School of Life Sciences, Lecturer at Shaoxing University (2014–2019) where she began shaping young minds in environmental science, and Postdoctoral Researcher at Donghua University (2021–2024), furthering her expertise in advanced material applications for environmental remediation.

Contributions and Research Focus 🔬

Prof. Liang's research primarily focuses on environmental pollution control, sustainable water treatment methods, and the use of novel materials for contaminant removal. Her work has significantly advanced the understanding and implementation of Nano Zero-Valent Iron (nZVI) Technology for heavy metal and radionuclide removal from water sources, Weak Magnetic Field-Enhanced Water Purification, exploring the synergy between magnetic fields and chemical reactions in pollutant degradation, Metal-Organic Framework (MOF)-Based Remediation, particularly MIL-101(Cr) for enhanced uranium (U(VI)) immobilization, and Fenton-Like Oxidation Systems for efficient dye wastewater treatment. Her interdisciplinary approach, combining chemistry, physics, and engineering, has led to novel solutions for environmental sustainability.

Accolades and Recognition 🏆

Prof. Liang's impactful research has earned her several prestigious awards and honors, including the Shanghai Provincial Second Prize (2024) for pioneering advancements in zero-valent iron water purification, the China Business Federation Science and Technology Progress Award (2022) for her contributions to eco-friendly textile treatment solutions, the National Natural Science Foundation Grant (2023–2026) for her work on MIL-101(Cr)-modified nZVI in radionuclide remediation, and the China Postdoctoral Science Foundation Grant (2021–2023) for her research on magnetic field-enhanced Fenton-like oxidation.

Impact and Influence 🌍

Prof. Liang’s work has significantly shaped the field of environmental remediation by introducing cost-effective and efficient water purification techniques. Her research has improved industrial water treatment processes, reducing environmental hazards from heavy metals and radioactive pollutants, enhanced scientific understanding of nano-material applications, leading to new innovations in pollution control, contributed to public health improvements, ensuring cleaner water for communities worldwide, and mentored and inspired future scientists, fostering the next generation of environmental engineers and researchers.

Legacy and Future Contributions 🚀

Prof. Liping Liang's legacy is defined by her commitment to solving global water contamination challenges through cutting-edge research. Looking ahead, she aims to expand her research on hybrid nanomaterial applications for sustainable environmental solutions, develop scalable water treatment technologies for large-scale industrial and municipal use, and strengthen international collaborations to advance environmental engineering on a global scale. With her unwavering dedication to research and innovation, Prof. Liang continues to pave the way for sustainable environmental practices, leaving a lasting impact on both academia and industry. Her contributions make her a highly deserving candidate for recognition as a leader in environmental science. 🌱🌍

 

Publications

  • 📄 Synergistic effect of MIL-101(Cr) and nanoscale zero-valent iron (nZVI) for efficient removal of U(VI) and assessment of this composite to inactivate Escherichia coli

    • Author(s): L. Liang (Liping), F. Xi (Fenfen), J. Zhao (Jinhui), S. Komarneni (Sridhar), J. Ma (Jianfeng)
    • Journal: Separation and Purification Technology
    • Year: 2025

  • 📄 Efficient U(VI) removal by Ti₃C₂Tₓ nanosheets modified with sulfidated nano zero-valent iron: Batch experiments, mechanism, and biotoxicity assessment

    • Author(s): L. Liang (Liping), M. Zhou (Mengfan), F. Xi (Fenfen), W. Yang (Wangliang), B. Hu (Baowei)
    • Journal: Journal of Environmental Sciences (China)
    • Year: 2025

  • 📄 Z-scheme heterojunction photocatalyst of LaFeO₃@CoS for tetracycline hydrochloride degradation by persulfate activation using visible light

    • Author(s): J. Zhan (Jiayu), L. Liang (Liping), Y. Lu (Ying), S. Komarneni (Sridhar), J. Ma (Jianfeng)
    • Journal: Ceramics International
    • Year: 2025

  • 📄 Efficient U(VI) removal from aerobic solution by synergistic interaction of nano zero-valent iron with g-C₃N₄ and assessment of toxicity to microorganisms

    • Author(s): L. Liang (Liping), F. Xi (Fenfen), M. Zhou (Mengfan), B. Hu (Baowei)
    • Journal: Journal of Water Process Engineering
    • Year: 2024

  • 📄 Weak magnetic field and coexisting ions accelerate phenol removal by ZVI/H₂O₂ system: Their efficiency and mechanism

    • Author(s): L. Liang (Liping), C. Bai (Chaoqi), Y. Zhang (Yuting), S. Komarneni (Sridhar), J. Ma (Jianfeng)
    • Journal: Chemosphere
    • Year: 2024

 

Wen-Ji Dong | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Wen-Ji Dong | Agricultural and Biological Sciences | Best Researcher Award

Washington State University | United States

Author Profile

Scopus

Google Scholar

Early Academic Pursuits 🎓

Dr. Wen-Ji Dong embarked on his academic journey with a deep passion for chemistry and biophysics. He earned his B.S. and M.S. degrees in Chemistry from Lanzhou University, P.R. China, under the mentorship of Prof. Rudong Yang. His doctoral research at Birkbeck College, University of London, focused on physical chemistry, guided by Prof. Colin D. Flint. Further strengthening his expertise, he pursued postdoctoral training in biophysics at the University of Western Ontario and biochemistry at the University of Alabama at Birmingham. These formative years provided him with a multidisciplinary foundation, setting the stage for groundbreaking contributions to bioengineering and cardiac muscle research.

Professional Endeavors 🏛️

Dr. Dong's professional career spans multiple prestigious institutions. His tenure at Washington State University (WSU) has been particularly influential, where he has risen through the ranks from Assistant Professor to Full Professor in the Voiland School of Chemical Engineering and Bioengineering. Before joining WSU, he served as a Research Assistant Professor and Research Instructor at the University of Alabama at Birmingham, refining his expertise in protein and cellular engineering. His career reflects an unwavering commitment to advancing both research and education in bioengineering.

Contributions and Research Focus 🔍

Dr. Dong's research addresses critical challenges in cardiac muscle regulation, microbial extracellular vesicles, and diagnostic technologies. His key research objectives include:

  • Understanding Myocardial Function: Investigating fundamental mechanisms governing heart muscle function under healthy and diseased conditions.
  • Developing Advanced Biosensors: Creating unique diagnostic technologies for rapid disease detection at the point of care.
  • Microbial Extracellular Vesicles: Exploring their roles in intracellular communication and potential applications in microbial infection control.
  • Innovative Antibiotic Alternatives: Engineering microbial EV-based antibiotics to combat bacterial and fungal infections.

His interdisciplinary approach integrates bioengineering, fluorescence spectroscopy, biophotonics, and microfluidics, positioning him at the forefront of biomedical research.

Accolades and Recognition 🏆

Dr. Dong’s contributions have been widely recognized through various awards and editorial roles:

  • Outstanding Research Award from Washington State University.
  • Nominee for the Anjan Bose Research Award in the College of Engineering and Architecture.
  • Muscular Dystrophy Association Research Fellowship, highlighting his impact on muscle physiology research.
  • China-British Technology Collaboration Scholarship, recognizing his early academic excellence.
  • Editorial Roles in esteemed journals, including Frontiers in Striated Muscle Physiology, Biosensors, and Frontiers in Bioengineering and Biotechnology.
  • Invited Speaker at the Gordon Research Conference, a prestigious forum for scientific exchange.

His research publications, exceeding 148 in total, have garnered thousands of citations, reflecting his global academic impact.

Impact and Influence 🌍

Dr. Dong's research has significantly shaped the fields of bioengineering and cardiac physiology. His advancements in protein engineering, biosensors, and microbial vesicle studies have influenced both academia and industry. Through his mentorship at WSU, he has trained a new generation of researchers, equipping them with cutting-edge skills to drive future innovations.

Legacy and Future Contributions 🚀

Dr. Wen-Ji Dong’s legacy lies in his interdisciplinary approach to solving biomedical challenges. Moving forward, his work will continue to:

  • Refine diagnostic technologies for faster, more accurate disease detection.
  • Develop new microbial EV-based treatments, offering alternatives to traditional antibiotics.
  • Expand research on cardiac muscle regulation, contributing to novel therapies for heart diseases.
  • Inspire and mentor future scientists, ensuring sustained progress in bioengineering.

Dr. Dong’s dedication to research and education ensures that his influence will be felt for generations, cementing his reputation as a leader in bioengineering and biomedical innovation.

Publications

  •  📄 Dual Roles of the Conditional Extracellular Vesicles Derived from Pseudomonas aeruginosa Biofilms: Promoting and Inhibiting Bacterial Biofilm Growth
    Author(s): Marwa Gamal Saad, Haluk Beyenal, Wen-Ji Dong
    Journal: Biofilms
    Year: 2024

  •  📄 Dual Roles of the Conditional Exosomes Derived from Pseudomonas aeruginosa Biofilms: Promoting and Inhibiting Bacterial Biofilm Growth
    Author(s): Marwa Gamal Saad, Haluk Beyenal, Wen-Ji Dong
    Journal: bioRxiv
    Year: 2023

  •  📄 Exosomes as Powerful Engines in Cancer: Isolation, Characterization and Detection Techniques
    Author(s): Marwa Gamal Saad, Haluk Beyenal, Wen-Ji Dong
    Journal: Biosensors
    Year: 2021

  •  📄 Consensus Statement: Standardized Reporting of Power-Producing Luminescent Solar Concentrator Performance
    Author(s): Chenchen Yang, Wen-Ji Dong, Richard R. Lunt, et al.
    Journal: Joule
    Year: 2022

  •  📄 A Preliminary Investigation on the Photothermal Properties of Luminescent Solar Concentrators
    Author(s): Y. Li, Y. Sun, Y. Zhang, Wen-Ji Dong
    Journal: Optics
    Year: 2021

 

Norasage Pattanadech | Engineering | Best Researcher Award

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Assoc. Prof. Dr. Norasage Pattanadech | Engineering | Best Researcher Award

King Mongkut Institute of Technology Ladkrabang | Thailand

Author Profile

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Orcid

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🎓 Early Academic Pursuits

Assoc. Prof. Dr. Norasage Pattanadech embarked on his academic journey with a strong foundation in electrical engineering. He earned his Bachelor of Engineering degree from King Mongkut’s Institute of Technology Ladkrabang (KMITL), Bangkok, Thailand, in 1998. His passion for advancing in the field led him to pursue a Master of Engineering in Electrical Engineering at Chulalongkorn University, Bangkok, Thailand, which he completed in 2002. With an insatiable thirst for knowledge, he attained his doctoral degree in Engineering Sciences in Electrical Engineering from the Institute of High Voltage Engineering and System Management at Graz University of Technology, Austria, in 2013. These formative years set the stage for his impactful career in electrical engineering, high-voltage systems, and insulation technologies.

🏢 Professional Endeavors

Dr. Pattanadech’s professional journey has been marked by global academic collaborations and industrial expertise. His exchange research experiences took him to esteemed institutions, including Tokai University in Japan (2005) and Graz University of Technology in Austria (2007). His role as a Guest Professor at the University of Applied Science Wuerzburg-Schweinfurt, Germany, since 2019, showcases his international recognition in power engineering and high-voltage technology. Beyond academia, Dr. Pattanadech has played a vital role in several industrial projects. His expertise in power system diagnostics, partial discharge analysis, and underground cable assessments has contributed to major initiatives with leading organizations, including GPSC, SCG, and Thai-Yazaki Electric Wire. His leadership in assessing transformer lifespan, underground cable performance, and failure analysis has provided crucial insights into improving power system reliability and safety.

🏆 Contributions and Research Focus

Dr. Pattanadech's research spans a broad spectrum of electrical engineering, with a primary focus on high-voltage insulation, power system diagnostics, and partial discharge analysis. His work on dielectric materials, insulation performance evaluation, and nanofluids for transformer applications has significantly advanced the field. He has published extensively in prestigious international journals such as IEEE Transactions on Power Delivery, IEEE Transactions on Dielectrics and Electrical Insulation, and IET Science Measurement and Technology. His research has yielded innovative solutions for insulation monitoring, breakdown analysis, and high-voltage equipment testing. Additionally, he has co-authored influential books, including "Biological Insulating Liquids" (Springer, 2023) and "Partial Discharges: Detection, Identification, and Localization" (IEEE PRESS, Wiley, 2023), which serve as essential resources in the field of electrical engineering.

🏅 Accolades and Recognition

Dr. Pattanadech's contributions have earned him international recognition and leadership roles in various professional organizations. He is an active member of the IEEE PES Thailand Chapter and serves on several IEC technical committees for high-voltage test techniques and partial discharge measurements. As the Chairperson for the International Conference on Condition Monitoring and Diagnosis (CMD 2020) and the International Steering Committee Chair since 2018, he has played a pivotal role in shaping the global discourse on power system diagnostics. His expertise has also been acknowledged through patents, including his Japan Patent (2021) for a breaker with electrode-controlling current, underscoring his contributions to electrical safety and reliability advancements.

🌍 Impact and Influence

Dr. Pattanadech's impact extends beyond research publications and patents. His dedication to training and knowledge dissemination is evident in his role as a lead trainer for advanced partial discharge courses in Singapore, Malaysia, and the Netherlands. His involvement in international advisory committees, including ICPADM and ISEIM, highlights his influence in guiding research and technological advancements in electrical insulation and power system diagnostics. His collaborations with industries in Thailand and beyond have led to significant improvements in condition monitoring techniques, underground cable health assessments, and transformer reliability studies. His work has not only enhanced engineering practices but has also contributed to the long-term sustainability of electrical infrastructure.

🚀 Legacy and Future Contributions

As a thought leader in electrical engineering, Dr. Pattanadech continues to push the boundaries of research and innovation. His upcoming role as General Chair for the 14th International Conference on The Properties and Application of Dielectric Material (ICPADM 2024) underscores his commitment to advancing the field. With ongoing research in high-voltage insulation performance, nanofluids for dielectric applications, and artificial intelligence in partial discharge diagnostics, his future contributions will likely shape the next generation of power system technologies. His legacy as an educator, researcher, and industry expert will continue to inspire and guide professionals in electrical engineering for years to come.

Publications

  • 📄"The State of Health Estimation of Retired Lithium-Ion Batteries Using a Multi-Input Metabolic Gated Recurrent Unit"

    • Authors: Yu He, Norasage Pattanadech, Kasiean Sukemoke, Minling Pan, and Lin Chen
    • Journal: Energies
    • Year: 2025

  • 📄"Experimental Study of the Electrical and Physiochemical Properties of Different Types of Crude Palm Oils as Dielectric Insulating Fluids in Transformers"

    • Authors: P. Muangpratoom, C. Suriyasakulpong, S. Maneerot, W. Vittayakorn, and N. Pattanadech
    • Journal: Sustainability
    • Year: 2023

  • 📄"Additional Parameters for Elucidation of The Dielectric Behavior of Stator Winding in High Voltage Motors"

    • Authors: Norasage Pattanadech, Natthawut Phloymuk, Phethai Nimsanong, Chissanupong Srinangyam, Siwakorn Jeenmuang, and Chanin Bunlaksananusorn
    • Journal: Energy Reports
    • Year: 2022

  • 📄"Localisation of Partial Discharge in Power Cables Through Multi-Output Convolutional Recurrent Neural Network and Feature Extraction"

    • Authors: J. Yeo, H. Jin, A. Rodrigo Mor, C. Yuen, N. Pattanadech, W. Tushar, and T.K. Saha
    • Journal: IEEE Transactions on Power Delivery
    • Year: 2022

  • 📄"The Influence of Nanoparticles on The Dielectric Dissipation Factor and Lightning Properties in Palm Oil-Based Nanofluids"

    • Authors: N. Pattanadech and P. Muangpratoom
    • Journal: Journal of Engineering Science and Technology
    • Year: 2022