Vajeer Baba Shaik | Engineering | Best Researcher Award  

Posted on by ScienceFather

Mr. Vajeer Baba Shaik | Engineering | Best Researcher Award

Research Scholar from Dr. B R Ambedkar National Institute of Technology, India

Shaik Vajeer Baba is a promising researcher and academic currently pursuing his PhD in Mechanical Engineering with a focus on thermal polygeneration systems at Dr. B.R. Ambedkar National Institute of Technology, Jalandhar. He has a solid academic background, having completed his M.Tech in Thermal Engineering with a CGPA of 8.49 and a Bachelor’s degree in Mechanical Engineering. Baba is also active in various professional and academic roles, including as an Assistant Professor at Lingayas Vidyapeeth, where he contributes to teaching and research. His research is centered around energy-efficient systems, desalination technologies, and heat exchanger design. With a strong publication record and patents in energy and manufacturing, he shows great promise in his field. Baba’s work blends theoretical research with practical industrial applications, providing valuable insights into sustainability and energy optimization.

Professional Profile

Education

Shaik Vajeer Baba is currently pursuing a PhD in Mechanical Engineering at Dr. B.R. Ambedkar National Institute of Technology, Jalandhar, with a focus on thermal polygeneration systems. His academic journey began with a Bachelor’s degree in Mechanical Engineering from Dhanekula Institute of Engineering and Technology, where he graduated with a 73.04% score. Baba later completed his M.Tech in Thermal Engineering from Koneru Lakshmaiah Education Foundation (KL University) with an impressive CGPA of 8.49. His academic achievements reflect a strong foundation in mechanical and thermal engineering, and he continues to build on this expertise in his ongoing PhD research, which explores energy-efficient technologies in the field of thermal engineering.

Professional Experience

Shaik Vajeer Baba has accumulated valuable experience in both teaching and industry over the years. He currently serves as an Assistant Professor at Lingayas Vidyapeeth, where he has been contributing to the academic environment since January 2025. Prior to this, Baba held teaching positions at V.K.R.V.N.B & A.G.K. College of Engineering, Gudivada, and Anand College of Engineering and Management, Kapurthala. In addition to his teaching roles, he worked as a Junior Research Fellow (JRF) at Dr. B.R. Ambedkar National Institute of Technology, Jalandhar, where he worked on projects related to thermal engineering and energy systems. Baba’s industrial experience includes working as a machine operator at Better Castings, Vijayawada, providing him with practical exposure to manufacturing processes.

Research Interest

Shaik Vajeer Baba’s research interests are primarily focused on thermal engineering, specifically in the areas of polygeneration, heat exchanger design, HDH desalination, and system optimization. His PhD research is centered on thermal polygeneration systems, which combine multiple energy production processes for enhanced efficiency. Baba has explored heat exchanger design in various energy systems, aiming to improve heat transfer efficiency. His work also includes the development of desalination technologies, particularly focused on the HDH process, and integrating energy-efficient systems for sustainable energy solutions. These research areas have both academic and industrial relevance, aiming to tackle current energy challenges while promoting sustainability.

Research Skills

Shaik Vajeer Baba possesses a strong set of research skills, including expertise in heat exchanger design, energy system optimization, and the development of sustainable energy technologies. He is proficient in simulation and modeling software such as MATLAB and ANSYS, which he uses to analyze and optimize thermal systems. Baba’s ability to conduct both experimental and theoretical research allows him to generate valuable insights into energy-efficient technologies. His knowledge in product development is reflected in his work on thermal systems, HDH desalination, and heat pump systems. Moreover, his research has resulted in several published papers and patents, demonstrating his ability to contribute to scientific advancements in his field.

Awards and Honors

Shaik Vajeer Baba has received recognition for his innovative contributions to the field of thermal engineering. His work has resulted in several publications in reputed journals and conferences, including SCI and ESCI indexed papers. Baba has also applied for patents in areas like artificial intelligence in manufacturing and thermoelectric generators, showcasing his innovative thinking. Additionally, he has attended numerous Faculty Development Programs (FDPs) and workshops, which reflect his commitment to staying updated with the latest advancements in his field. Baba’s active involvement in academic activities, such as being the IQAC coordinator and R&D member at his institution, highlights his dedication to both research and educational development.

Conclusion

Shaik Vajeer Baba is an emerging scholar in the field of thermal engineering with a promising research trajectory. His academic background, strong publication record, and patents in the areas of energy systems and sustainable technologies demonstrate his dedication and potential as a researcher. Baba’s focus on energy efficiency and optimization aligns well with current global challenges in sustainable energy solutions. His work, which bridges both theoretical research and industrial applications, positions him as a valuable contributor to the field. With continued growth in collaborations, research output, and global recognition, Baba is well on his way to becoming a leading researcher in his area of expertise.

Publications Top Notes

  1. Title: Performance analysis of heat pump polygeneration system
    Authors: Shaik, Vajeer Baba; Srinivas, T.; Kukreja, Rajeev
    Journal: Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering
    Year: 2024

Jing Wang | Engineering | Best Researcher Award

Posted on by ScienceFather

Assoc. Prof. Dr. Jing Wang | Engineering | Best Researcher Award

Associate Professor from Shanghai Jiao Tong University, China

Jing Wang, Ph.D., is an Associate Professor at Shanghai Jiao Tong University, specializing in mechanical engineering and working within the State Key Laboratory of Mechanical System and Vibration. With a birth date of November 14, 1989, Dr. Wang has quickly established himself as a leading figure in the field of interfacial science, bio-inspired engineering, and micro/nanomanufacturing. His career reflects a blend of cutting-edge research, innovation, and strong entrepreneurial spirit. Having worked across top institutions in China and the United States, he bridges fundamental science with real-world applications, including sustainable materials and environmental solutions. Dr. Wang has co-authored numerous high-impact publications in journals such as Science, Nature Communications, and Advanced Materials, and has been recognized globally for his contributions. Beyond his research, he is actively involved in mentoring, reviewing for top-tier journals, organizing webinars, and serving in leadership roles within the scientific community. His achievements underscore a dynamic profile shaped by excellence, innovation, and global collaboration.

Professional Profile

Education

Jing Wang completed his Bachelor of Engineering (B.E.) in Measurement, Control Technology, and Instruments from Tsinghua University, China, in 2012, laying the foundation for his technical expertise. He advanced his studies in the United States, earning a Ph.D. in Mechanical Engineering from The Pennsylvania State University in 2018, where his research focused on cutting-edge materials and interfacial phenomena. Dr. Wang further honed his expertise during a postdoctoral fellowship at the University of Michigan from 2018 to 2022, engaging in multidisciplinary projects that bridged materials science, mechanics, and sustainability. These educational milestones not only provided him with deep theoretical knowledge but also equipped him with advanced experimental and analytical skills essential for high-impact research. His academic journey across top-tier institutions in China and the U.S. reflects his dedication to continuous learning, innovation, and global scientific engagement. Each stage of his education has contributed to his ability to tackle complex engineering challenges, mentor young scientists, and lead groundbreaking research in interfacial science and bio-inspired materials engineering.

Professional Experience

Jing Wang’s professional trajectory highlights a rapid and impactful rise within the global academic and research community. After completing his Ph.D. at Penn State University in 2018, he joined the University of Michigan as a postdoctoral fellow, where he worked until 2022 on innovative projects spanning interfacial science, anti-fouling materials, and sustainable coatings. In 2022, he was appointed as an Associate Professor at Shanghai Jiao Tong University, one of China’s premier research institutions, where he currently holds a joint appointment in the Department of Mechanical Engineering and the State Key Laboratory of Mechanical System and Vibration. Beyond his academic posts, Dr. Wang has been a Technical Advisor for spotLESS Materials Inc. since 2018, reflecting his strong entrepreneurial engagement and commitment to technology transfer. His leadership roles include webinar organization, journal reviewing for high-impact publications, and serving as a lab manager and safety committee member during his doctoral years. This combination of academic excellence, research leadership, and entrepreneurial activity makes him a well-rounded professional with deep insights into both fundamental science and applied engineering.

Research Interests

Jing Wang’s research interests center on interfacial science and engineering, bio-inspired engineering, micro- and nanomanufacturing, mechanics, and sustainability. He is particularly focused on designing materials and coatings that mimic nature’s solutions to complex challenges, such as anti-fouling, self-cleaning, and water-saving technologies. His work integrates principles from chemistry, physics, and engineering to develop advanced surfaces and materials that have applications in environmental sustainability, energy systems, and healthcare. Additionally, Dr. Wang is deeply interested in understanding the mechanics of materials at the micro- and nanoscale, enabling the creation of responsive and adaptive systems. His projects often involve interdisciplinary collaborations, combining expertise from materials science, fluid mechanics, nanotechnology, and manufacturing engineering. Through this integrative approach, he aims to create innovative solutions that address pressing global challenges, from water scarcity and sanitation to energy efficiency and advanced manufacturing processes. Dr. Wang’s research not only advances scientific understanding but also emphasizes practical applications that benefit society at large.

Research Skills

Jing Wang possesses a diverse and advanced skill set that spans experimental, analytical, and theoretical domains. His research skills include expertise in micro- and nanofabrication techniques, interfacial engineering, and the design and synthesis of advanced materials with tailored properties. He is adept in various surface characterization methods such as scanning electron microscopy (SEM), atomic force microscopy (AFM), and contact angle measurements, enabling detailed understanding of surface properties. Dr. Wang has strong experience in wet chemistry methods, thin film deposition, and the development of bio-inspired coatings. He is proficient in applying computational modeling and data analysis to complement experimental findings, enhancing the predictive power and robustness of his research. Additionally, he is experienced in innovation management, having participated in entrepreneurial programs such as NSF I-Corps, where he led technology development and commercialization efforts. His multidisciplinary skill set allows him to bridge fundamental research and applied engineering, making him a versatile and impactful researcher.

Awards and Honors

Jing Wang’s career is distinguished by numerous prestigious awards and honors recognizing his scientific excellence, innovation, and leadership. Notable accolades include the 2023 Shanghai Science and Technology Leading 35 Under 35 and the 2022 Forbes China Young Elite Overseas Returnees 100, underscoring his global reputation as a rising research leader. He has also received the National Science Fund for Excellent Young Scholars (Overseas), one of China’s most competitive research grants. Earlier in his career, Dr. Wang was awarded multiple innovation and entrepreneurial prizes, such as the Cleantech University Prize National Competition (Top 3 Team) and first place in the Materials Research Society (MRS) iMatSci Innovator award. He has received several Inventor Incentive Awards from Penn State University and was recognized by NASA iTech as a Top 10 Innovation. These honors reflect both the scientific impact and the practical relevance of his work, positioning him as an influential figure in his field with a proven record of research and innovation.

Conclusion

In conclusion, Dr. Jing Wang emerges as a highly qualified and deserving candidate for a Best Researcher Award based on his outstanding research achievements, interdisciplinary expertise, and global impact. His work at the intersection of interfacial science, bio-inspired materials, and sustainability has led to groundbreaking discoveries and high-profile publications, significantly advancing both fundamental knowledge and applied technologies. With a solid educational foundation from Tsinghua University, Penn State, and the University of Michigan, coupled with his rapid ascent to an Associate Professorship at Shanghai Jiao Tong University, Dr. Wang exemplifies excellence in research leadership. His numerous awards, entrepreneurial activities, and international collaborations further attest to his capability to drive innovation and translate research into societal benefits. While his record is impressive, ongoing efforts to expand his industrial collaborations and build a larger international research network could further amplify his influence. Overall, Dr. Wang’s profile positions him as a top contender for recognition as a best researcher, with clear strengths in innovation, impact, and leadership.

Publications Top Notes

  1. Title: Rational Design of Microbicidal Inorganic Nano‐ Architectures Journal: Small Date: 2025- 05- 02 DOI: 10.1002/ smll. 202502663 Authors: Shuaidong Qi, Jing Wang, Decui Cheng, Tingting Pan, Ruoming Tan, Hongping Qu, Li‐ Min ZhuRational Design of Microbicidal Inorganic Nano-Architectures
    Journal: Small
    Date: 2025-05-02
    DOI: 10.1002/smll.202502663
    Authors: Shuaidong Qi, Jing Wang, Decui Cheng, Tingting Pan, Ruoming Tan, Hongping Qu, Li-Min Zhu

  2. Title: Design of Abrasion-Resistant, Long-Lasting Antifog Coatings
    Journal: ACS Applied Materials & Interfaces
    Date: 2024-03-13
    DOI: 10.1021/acsami.3c17117
    Authors: Brian Macdonald, Fan-Wei Wang, Brian Tobelmann, Jing Wang, Jason Landini, Nipuli Gunaratne, Joseph Kovac, Todd Miller, Ravi Mosurkal, Anish Tuteja

  3. Title: Bioinspired Stimuli-Responsive Materials for Soft Actuators
    Journal: Biomimetics
    Date: 2024-02-21
    DOI: 10.3390/biomimetics9030128
    Authors: Zhongbao Wang, Yixin Chen, Yuan Ma, Jing Wang

  4. Title: Bioinspired Stimuli-Responsive Materials for Soft Actuators (Preprint)
    Date: 2024-01-29
    DOI: 10.20944/preprints202401.2039.v1
    Authors: Zhongbao Wang, Yixin Chen, Yuan Ma, Jing Wang

  5. Title: Visible-Light-Driven Photocatalysts for Self-Cleaning Transparent Surfaces
    Journal: Langmuir
    Date: 2022-09-27
    DOI: 10.1021/acs.langmuir.2c01455
    Authors: Andrew J. Gayle, Julia D. Lenef, Park A. Huff, Jing Wang, Fenghe Fu, Gayatri Dadheech, Neil P. Dasgupta

  6. Title: Breaking the Nanoparticle’s Dispersible Limit via Rotatable Surface Ligands
    Journal: Nature Communications
    Date: 2022-06-23
    DOI: 10.1038/s41467-022-31275-7
    Authors: Yue Liu, Na Peng, Yifeng Yao, Xuan Zhang, Xianqi Peng, Liyan Zhao, Jing Wang, Liang Peng, Zuankai Wang, Kenji Mochizuki, et al.

  7. Title: Durable Liquid- and Solid-Repellent Elastomeric Coatings Infused with Partially Crosslinked Lubricants
    Journal: ACS Applied Materials & Interfaces
    Date: 2022-05-18
    DOI: 10.1021/acsami.2c03408
    Authors: Jing Wang, Bingyu Wu, Abhishek Dhyani, Taylor Repetto, Andrew J. Gayle, Tae H. Cho, Neil P. Dasgupta, Anish Tuteja

  8. Title: Design and Applications of Surfaces That Control the Accretion of Matter
    Journal: Science
    Date: 2021-07-16
    DOI: 10.1126/science.aba5010
    Authors: Abhishek Dhyani, Jing Wang, Alex Kate Halvey, Brian Macdonald, Geeta Mehta, Anish Tuteja

  9. Title: Quantitative and Sensitive SERS Platform with Analyte Enrichment and Filtration Function
    Journal: Nano Letters
    Date: 2020-09-03
    DOI: 10.1021/acs.nanolett.0c02683
    Authors: Jing Wang

Duygu Bayram Kara | Engineering | Best Researcher Award

Posted on by ScienceFather

Assoc. Prof. Dr. Duygu Bayram Kara | Engineering | Best Researcher Award

Associate Professor in Electrical Engineering, Istanbul Technical University, Turkey

Duygu Bayram Kara is a seasoned academic and researcher with deep expertise in signal processing, soft computing, and machine learning, particularly applied to condition monitoring, diagnostics, and electric machinery. Currently serving as an Associate Professor at Istanbul Technical University in the Department of Electrical Engineering, she brings over a decade of academic and industry experience. Her research combines theoretical innovation with practical application, contributing to the evolving field of intelligent systems. Her academic journey has been rooted in Istanbul Technical University, where she earned her BSc, MSc, and PhD, focusing on induction motor design and diagnostics using advanced analytical tools such as finite element analysis and wavelet transforms. Duygu has complemented her academic work with international research experiences, notably as a Visiting Researcher at the University of Tennessee, Knoxville. She is also actively involved in public outreach and technical consulting, further underlining her multidisciplinary impact. Her commitment to lifelong learning is reflected in a broad range of certifications and training, including predictive modeling, diagnostics platforms, and simulation software. With a balanced profile that merges strong theoretical grounding, industrial relevance, and societal contribution, Duygu Bayram Kara stands out as a compelling candidate for research honors and recognition.

Professional  Profile

Educational Background

Duygu Bayram Kara holds a comprehensive academic background in Electrical Engineering, having completed all her higher education at the prestigious Istanbul Technical University. She earned her Bachelor of Science degree between 2001 and 2006, focusing on the design of squirrel cage induction motors, which laid the groundwork for her future specialization. Her Master’s degree, completed between 2006 and 2009, involved advanced finite element analysis, specifically examining the impact of time harmonic voltages on induction machines. This rigorous technical foundation was further strengthened by her PhD studies from 2009 to 2015, where she developed innovative methodologies for condition monitoring and fault detection in induction motors using geometric trending and stationary wavelet analysis. Her academic training provided her with solid skills in modeling, simulation, and diagnostics, essential for modern-day electrical engineering challenges. During her educational journey, Duygu not only acquired theoretical knowledge but also demonstrated an ability to apply these skills in research settings, earning her recognition as a technically proficient and research-driven scholar. Her educational pathway reflects a deep and focused commitment to mastering complex electromechanical systems and diagnostic methodologies, which she continues to explore in her academic and industrial collaborations.

Professional Experience

Duygu Bayram Kara has cultivated a rich and diverse professional career centered on electrical engineering, diagnostics, and intelligent systems. She currently serves as an Associate Professor in the Electrical Engineering Department of Istanbul Technical University, where she leads the Intelligent Condition Monitoring & Diagnostics Lab. Her academic journey at the university began as a Research Assistant in 2007, culminating in a decade-long role as Assistant Professor from 2016 to 2025. Beyond academia, she has also worked in industry as a Senior Researcher at MEKATRO Mechatronic Systems Research & Development Corp., where she contributed to the design and optimization of electric vehicle drive systems. Her international exposure includes a stint as a Visiting Researcher at the University of Tennessee, Knoxville, collaborating with the PROACT Lab on reliability and maintainability projects. In addition to her academic and research activities, she has provided consultancy and training for organizations such as the Directorate General of Coastal Safety of Turkiye and ARÇELIK, where she played a key role in designing high-efficiency electric motors. This blend of academic rigor, practical industry involvement, and international collaboration highlights her multifaceted professional profile, showcasing her ability to navigate and impact various sectors in the field of electrical engineering and applied diagnostics.

Research Interests

Duygu Bayram Kara’s research interests lie at the intersection of electrical engineering, machine learning, and system diagnostics. Her primary focus areas include signal processing, condition monitoring, fault diagnostics, soft computing, and electric machinery. She has a particular interest in using machine learning and wavelet-based approaches for predictive maintenance and early fault detection in rotating electrical machines such as induction motors. Her academic foundation in electric machine design allows her to approach diagnostics not only from a data perspective but also from an in-depth understanding of electromechanical system behavior. She is also actively engaged in finite element modeling (FEM) and simulation-based analysis, which she applies to complex system evaluations and component-level analysis. Over the years, Duygu has expanded her research to include intelligent monitoring systems, contributing to innovations in both hardware and software solutions for industrial applications. Her collaborative work in international labs and consulting roles further enriches her research perspective, bridging the gap between theoretical development and industrial needs. She continues to explore new frontiers in diagnostics and reliability engineering, ensuring her work remains aligned with technological advancements and real-world challenges in electrical engineering and system optimization.

Research Skills

Duygu Bayram Kara possesses a robust and versatile research skill set that spans theoretical modeling, computational simulation, experimental diagnostics, and machine learning applications. Her technical toolkit includes advanced proficiency in MATLAB, Python, and simulation software such as ANSYS Maxwell, RMxprt, and FEMM. She has substantial expertise in signal processing techniques, including wavelet analysis and time-frequency representations, used for condition monitoring and fault detection in electric machinery. Her ability to apply finite element analysis (FEA) to evaluate the behavior of electrical machines under different conditions highlights her simulation proficiency. Furthermore, Duygu is trained in using specialized tools such as the MATLAB Diagnostics and Prognostics Toolbox and has completed professional training in predictive modeling and empirical prognostics. She effectively integrates soft computing approaches and artificial intelligence algorithms into traditional electrical engineering problems, thereby contributing to the evolution of intelligent monitoring systems. Her experience working with vibration sensing platforms, coupled with her background in electric machine design, enables her to diagnose faults with high accuracy. This multidisciplinary skill set positions her as a valuable asset in both academic and industrial research environments. She demonstrates not only technical excellence but also a practical orientation, making her a well-rounded and impactful researcher.

Awards and Honors

While the provided profile does not list major competitive awards or honors explicitly, Duygu Bayram Kara has earned significant recognition through her academic, professional, and technical accomplishments. Notably, she became a Senior Member of IEEE in July 2021, a status granted to individuals with extensive experience and significant performance in their field. This recognition reflects her leadership, technical proficiency, and professional involvement in the global electrical engineering community. Additionally, she has participated in numerous prestigious training programs, such as IEEE’s Continuing Education workshops on condition-based monitoring and empirical modeling, as well as specialized certifications in predictive analytics and simulation tools. Her consultancy roles with organizations like ARÇELIK and the Directorate General of Coastal Safety indicate a high level of trust and credibility in her applied research expertise. Furthermore, her involvement in socially impactful events, such as organizing the EU Sustainable Energy Week and educational science outreach programs, speaks to her dedication to science communication and community engagement. Although competitive research awards or grant recognitions are not detailed in her profile, her accumulation of professional certificates, trusted consulting roles, and IEEE senior membership validate her achievements and contributions in the field of diagnostics and electric machinery.

Conclusion

In conclusion, Duygu Bayram Kara presents a compelling case as a candidate for the Best Researcher Award. Her work embodies a rare blend of academic depth, technical innovation, practical industry experience, and international collaboration. With a research focus on condition monitoring, signal processing, and electric machinery diagnostics, she has consistently contributed to both theoretical knowledge and practical solutions. Her robust academic background, enhanced by global exposure and multidisciplinary expertise, positions her as a leading figure in her field. Her profile reflects not only excellence in research but also a commitment to societal advancement through education and public engagement. Moreover, her consultancy experience and continuous professional development underscore her dynamic approach to solving real-world engineering challenges. While the profile could benefit from more detailed recognition through competitive research awards or high-profile grants, her achievements across teaching, research, and service clearly indicate sustained impact and leadership. Overall, Duygu Bayram Kara stands out as a researcher who combines innovative thinking with technical mastery, making her a worthy nominee for distinguished research accolades and recognition in the global academic and engineering community.

Publications Top Notes

  1. Degradation assessment of an IGBT with recurrence analysis and Kalman filter based data fusion
    Authors: Duygu Bayram Kara
    Journal: Chaos, Solitons and Fractals
    Year: 2024

  2. Park vector approach based misalignment detection strategy for IMs (Conference Paper)
    Authors: Ege Kahraman, Anil Erkut Ulusoy, Mehmet Ozan Şerifoğlu, Duygu Bayram Kara
    Year: 2024
    Citations: 1

 

Ashish Reddy Kumbham | Engineering | Best Innovator Award

Posted on by ScienceFather

Mr. Ashish Reddy Kumbham | Engineering | Best Innovator Award

Sr. Engineer, Cybersecurity and Application Development from Cardinal Health, United States 

Ashish Reddy Kumbham is a distinguished professional with over 11 years of experience in the IT industry, specializing in cybersecurity, artificial intelligence, neural networks, and risk compliance. Throughout his career, he has held diverse roles such as Software Engineer, Programmer Analyst, Software Engineer Specialist, and currently serves as a Senior Engineer in Cybersecurity and Application Development. His expertise has been instrumental in addressing emerging challenges in the digital security landscape. Ashish has contributed significantly to the field through published research articles in renowned journals, multiple patents, and a well-received book on cybersecurity and risk compliance. His leadership extends beyond his research, as he serves on the editorial boards of multiple journals, influencing the direction of research and innovation. Recognized with numerous awards for his technical expertise and thought leadership, he continues to push the boundaries of technology and cybersecurity practices. His dedication to advancing the field has earned him a reputable position in the global tech community, where he is committed to making a lasting impact. Through his research and innovation, Ashish has contributed to strengthening digital infrastructure, helping organizations and nations enhance security, compliance, and risk management strategies in an increasingly complex cyber environment.

Professional Profile

Education

Ashish Reddy Kumbham has a strong academic foundation that has shaped his expertise in cybersecurity, artificial intelligence, and software development. He holds a Bachelor’s degree in Computer Science, which provided him with the technical knowledge and programming skills necessary for his early career roles. To further enhance his expertise, he pursued a Master’s degree specializing in Cybersecurity and Artificial Intelligence, focusing on cutting-edge research in digital security and risk compliance. His academic journey has been marked by a keen interest in emerging technologies, leading him to undertake advanced coursework in machine learning, neural networks, cryptography, and risk assessment methodologies. In addition to formal degrees, he has acquired multiple industry-recognized certifications in cybersecurity, ethical hacking, and AI, further solidifying his credibility as an expert in these fields. His continuous learning approach has allowed him to stay ahead of technological advancements and contribute significantly to research and development. His education not only laid the foundation for his successful career but also fostered a strong passion for innovation, research, and problem-solving in complex technological domains. This academic background, combined with real-world experience, has enabled him to become a thought leader in cybersecurity and AI.

Professional Experience

Ashish Reddy Kumbham has built an impressive career spanning over a decade in the IT industry, demonstrating expertise across multiple domains, including cybersecurity, artificial intelligence, and software development. He began his career as a Software Engineer, where he gained hands-on experience in programming, system architecture, and software security. Over the years, he progressed to roles such as Programmer Analyst and Software Engineer Specialist, where he worked on developing secure applications and implementing AI-driven risk compliance solutions. Currently, he serves as a Senior Engineer in Cybersecurity and Application Development, focusing on developing innovative security frameworks and AI-powered solutions to address complex cybersecurity threats. His work involves risk assessment, vulnerability management, and ensuring compliance with global cybersecurity standards. In addition to his technical responsibilities, Ashish is actively involved in mentoring young professionals and collaborating with industry experts to drive innovation. His leadership extends to publishing research articles, securing patents, and contributing to cybersecurity policies that enhance digital infrastructure security. Through his experience, he has developed a deep understanding of the evolving cybersecurity landscape and continues to create solutions that benefit both businesses and government entities in mitigating cyber risks effectively.

Research Interest

Ashish Reddy Kumbham’s research interests lie at the intersection of cybersecurity, artificial intelligence, neural networks, and risk compliance. He is particularly focused on developing AI-driven solutions for threat detection, risk assessment, and automated security protocols to enhance digital resilience. His work explores innovative methods for detecting vulnerabilities in digital infrastructures, using machine learning algorithms to predict and prevent cyber threats proactively. Additionally, he has a strong interest in neural networks and their application in cybersecurity, including anomaly detection and real-time threat intelligence. Another key area of interest is regulatory compliance and risk management, where he aims to create frameworks that help organizations adhere to cybersecurity regulations while minimizing operational risks. His research also delves into ethical hacking, blockchain security, and the development of privacy-preserving AI models. Through his research, Ashish seeks to bridge the gap between theoretical advancements and practical implementations, ensuring that cybersecurity solutions are both innovative and applicable in real-world scenarios. His contributions to academic literature, combined with his practical industry experience, make him a leading figure in the field, continuously driving advancements in cybersecurity research and technology.

Research Skills

Ashish Reddy Kumbham possesses a diverse set of research skills that have enabled him to make significant contributions to the field of cybersecurity and artificial intelligence. He has expertise in data analysis and machine learning, utilizing AI algorithms to develop predictive models for cybersecurity threats. His proficiency in programming languages such as Python, Java, and C++ allows him to implement complex security solutions and automate threat detection systems effectively. Ashish is skilled in penetration testing, vulnerability assessment, and cryptographic techniques, ensuring robust security mechanisms for digital infrastructures. His strong analytical skills enable him to assess cybersecurity risks, identify system vulnerabilities, and develop risk mitigation strategies. He is also experienced in academic writing and publishing, having authored numerous research papers, technical reports, and a book on cybersecurity and risk compliance. His ability to translate complex research into practical applications has been instrumental in bridging the gap between theory and implementation. Additionally, his role as an editorial board member for multiple journals reflects his expertise in peer review, research evaluation, and knowledge dissemination. With a continuous focus on innovation and problem-solving, Ashish remains at the forefront of cybersecurity and AI research.

Awards and Honors

Ashish Reddy Kumbham has received multiple awards and honors in recognition of his contributions to cybersecurity, artificial intelligence, and risk compliance. His work has been acknowledged through prestigious industry awards, highlighting his technical expertise and thought leadership. He holds several patents for innovative cybersecurity solutions, demonstrating his ability to develop groundbreaking technologies that address pressing security challenges. His research publications in renowned journals have earned him accolades from academic and industry experts, further solidifying his reputation as a leading researcher in his field. Additionally, he has been honored for his contributions to risk compliance and governance, receiving recognition for his efforts in helping organizations navigate regulatory challenges. As an editorial board member of multiple journals, he has been commended for his role in shaping research directions and fostering innovation. His book on cybersecurity and risk compliance has also been well-received, earning praise from professionals and researchers alike. These awards and honors reflect his dedication to advancing technology and cybersecurity practices, reinforcing his status as a highly respected figure in the global tech community. His achievements continue to inspire professionals and researchers working in cybersecurity and AI.

Conclusion

Ashish Reddy Kumbham is a highly accomplished professional whose expertise spans cybersecurity, artificial intelligence, and risk compliance. With over a decade of experience, he has established himself as a thought leader through his research publications, patents, and industry contributions. His dedication to innovation is evident in his numerous awards and honors, recognizing his impact on the cybersecurity landscape. Through his role as an editorial board member and author, he continues to influence the direction of research and technological advancements. His commitment to bridging the gap between theoretical research and practical implementation has made him a valuable asset to the industry. By developing AI-driven cybersecurity solutions and risk compliance frameworks, he has played a crucial role in strengthening digital security on a global scale. While his contributions are already significant, his forward-thinking approach and ongoing research promise even greater advancements in the field. As cybersecurity and AI continue to evolve, Ashish remains at the forefront, driving innovation and ensuring the development of robust security solutions. His work not only benefits organizations and governments but also contributes to the broader mission of creating a safer and more resilient digital future.

Rupali Vairagade | Engineering | Excellence in Research Award

Posted on by ScienceFather

Dr. Rupali Vairagade | Engineering | Excellence in Research Award

Associate Professor from Shah and Anchor Kutchhi Engineering College, Mumbai, India

Dr. Rupali Sachin Vairagade is an accomplished researcher and academician in Computer Science and Engineering with over 14.5 years of teaching experience. She has made significant contributions to blockchain technology, artificial intelligence, IoT, and cybersecurity, with multiple SCI and SCOPUS-indexed publications. Her research has been widely cited, demonstrating its impact in the field. Additionally, she has authored books and book chapters and holds patents and copyrights in emerging technologies. As a dedicated mentor and academic leader, she has actively participated in conferences, faculty development programs, and expert lectures. She has also served as a reviewer for reputed journals and played a key role in various academic committees. With a strong technical and research background, Dr. Vairagade continues to contribute to the advancement of technology through innovative research, interdisciplinary collaboration, and industry engagement.

Professional Profile

Education

Dr. Rupali Sachin Vairagade holds a Ph.D. in Computer Science and Engineering from GITAM, Bengaluru (2023). She completed her Master’s degree in Computer Science and Engineering from Pune Institute of Computer Technology, SPPU Pune (2014), securing a first-class distinction with a 7.40 CGPA. Her undergraduate degree in Computer Science and Engineering was obtained from RTM Nagpur University (2007), where she graduated with 68.98% marks. She has a strong academic foundation, with first-class results in both HSC (68.83%) and SSC (78.93%) from the Maharashtra State Board. In addition to her formal education, she has undertaken several professional certifications from IITs and Coursera, specializing in areas such as blockchain, AI, cybersecurity, and ethical hacking. Her commitment to continuous learning and professional development has been evident in her participation in FDPs, workshops, and technical training programs.

Professional Experience

Dr. Rupali Sachin Vairagade has an extensive 14.5 years of experience in academia, specializing in teaching, research, and mentorship. She is currently serving as an Associate Professor at Shah & Anchor Kutchhi Engineering College, Mumbai. Previously, she held positions at G.H. Raisoni College of Engineering, Ramdeobaba College of Engineering, Sinhgad Institute of Technology, SVNIT Surat, and KITS Ramtek. Throughout her career, she has been actively involved in curriculum development, student mentoring, and research coordination. She has also served in administrative roles such as Exam Incharge, NBA Coordinator, and Research Coordinator. Her expertise spans blockchain, AI, IoT, cybersecurity, and cloud computing, and she has guided students in industry-relevant projects. She is committed to enhancing the learning experience through innovative teaching methodologies and hands-on research exposure.

Research Interests

Dr. Rupali Sachin Vairagade’s research focuses on blockchain technology, artificial intelligence, Internet of Things (IoT), machine learning, cybersecurity, and cloud computing. She is particularly interested in trust enhancement in blockchain networks, security mechanisms for IoT, AI-driven healthcare solutions, and smart contract optimization. Her recent works explore the integration of blockchain with AI for enhanced security and efficiency in decentralized applications. She is also passionate about data privacy, cryptographic techniques, and fintech innovations. Through her research, she aims to develop real-world applications that enhance digital security, data integrity, and system efficiency. She is actively working on interdisciplinary research projects and seeking collaborations with academia and industry professionals to further advance emerging technologies.

Research Skills

Dr. Rupali Sachin Vairagade possesses strong technical and research skills, particularly in blockchain implementation, AI model development, IoT security solutions, and cybersecurity frameworks. She has expertise in machine learning algorithms, smart contract development, cryptographic protocols, and cloud-based applications. Her research methodology includes data analytics, algorithm optimization, and system architecture design. She is proficient in Python, Java, MATLAB, and blockchain development tools. Additionally, she has experience in patent drafting, research paper writing, and technical reviewing for reputed journals. She continuously upgrades her skills through workshops, FDPs, and hands-on projects, ensuring that her knowledge remains aligned with the latest technological advancements.

Awards and Honors

Dr. Rupali Sachin Vairagade has received numerous awards and recognitions for her contributions to research and academia. She has been recognized as a reviewer for reputed SCI/SCOPUS-indexed journals, including Elsevier. She has secured NPTEL IIT certifications with Gold and Elite rankings in subjects like Internet of Things and Ethical Hacking. She has also won awards for her contributions to international conferences and research publications. Her patents and copyrights have been acknowledged for their innovation and applicability. Additionally, she is a lifetime member of ISTE and has actively participated in faculty development programs, expert lectures, and academic outreach initiatives.

Conclusion

Dr. Rupali Sachin Vairagade is a highly accomplished researcher, academician, and mentor in Computer Science and Engineering. With a strong publication record, patents, book authorship, and academic contributions, she has demonstrated excellence in research and innovation. Her expertise in blockchain, AI, IoT, and cybersecurity makes her a valuable asset to the academic and research community. She continues to influence the next generation of engineers through her teaching, mentorship, and collaborative research projects. With a focus on expanding high-impact research, securing research funding, and fostering industry collaborations, she is well-positioned to achieve further success in her field.

Publications Top Notes

  1. Title: Proposal on NFT minter for blockchain-based art-work trading system
    Authors: R. Vairagade, L. Bitla, H.H. Judge, S.D. Dharpude, S.S. Kekatpure
    Year: 2022
    Citations: 39

  2. Title: Enabling machine learning‐based side‐chaining for improving QoS in blockchain‐powered IoT networks
    Authors: R.S. Vairagade, B. S.H.
    Year: 2022
    Citations: 20

  3. Title: Cloud computing data storage and security enhancement
    Authors: R.S. Vairagade, N.A. Vairagade
    Year: 2012
    Citations: 15

  4. Title: Secured Multi-Tier Mutual Authentication Protocol for Secure IoT System
    Authors: R.S. Vairagade, S.H. Brahmananda
    Year: 2020
    Citations: 14

  5. Title: Power and Delay Efficient Three-Input XOR/XNOR With Systematic Cell Design Methodology
    Authors: U. Sadani, L. Bitla, R. Vairagade, V. Ghule
    Year: 2022
    Citations: 9

  6. Title: A Comprehensive Analysis of the Significance of Blockchain and AI for IoT Security
    Authors: R.S. Vairagade, S.H. Brahmananda, V.R.S.
    Year: 2020
    Citations: 6

  7. Title: Decentralized medical healthcare record management system using blockchain
    Authors: B. Bhandari, R. Vairagade, H. Trivedi, H. Thakre, G. Indurkar, A. Yadav
    Year: 2023
    Citations: 5

  8. Title: A discussion with illustrations on world-changing ChatGPT–an open AI tool
    Authors: P. Dubey, S. Ghode, P. Sambhare, R. Vairagade
    Year: 2023
    Citations: 4

  9. Title: Secure Internet of Things network using light‐weighted trust and blockchain‐powered PoW framework
    Authors: R.S. Vairagade, B. Savadatti Hanumantha
    Year: 2022
    Citations: 4

  10. Title: Secured Multi-Tier Mutual Authentication Protocol for Secure IoT System
    Authors: R. Vairagade
    Year: 2020
    Citations: 3

  11. Title: A study of various authentication mechanisms towards the secure Internet of Things networks
    Authors: R.S. Vairagade, S.H. Brahmananda
    Year: 2020
    Citations: 2

  12. Title: Survey on Implementation of Market Basket Analysis using Hadoop Framework
    Authors: R.S. Vairagade, T. Shah, T. Chavan, R. Bhatt
    Year: 2016
    Citations: 2

  13. Title: Survey Paper on User Defined Spam Boxes using Email Filtering
    Authors: R.S. Vairagade, N. Jaunjal, V. Joshi, A. Patil, S. Chavan
    Year: 2017
    Citations: 1

  14. Title: Survey on Project Management System using Event-based Scheduler and Ant Colony Optimization
    Authors: R.S. Vairagade, R. Arora, V. Gaikwad, D. Singh, P. Jadhav
    Year: 2016
    Citations: 1

Kao-Der Chang | Engineering | Best Researcher Award

Posted on by ScienceFather

Dr. Kao-Der Chang | Engineering | Best Researcher Award

Researcher from Industrial Technology Research Institute, Taiwan

Kao-Der Chang is an accomplished researcher in optical engineering, specializing in nano-photonics, surface plasmonic waves, and advanced material applications. With a Ph.D. in Optical Engineering from National Central University, Taiwan, he has made significant contributions to the fields of photonic technology and artificial intelligence-driven energy applications. Currently serving as the R&D Deputy Division Director at the Industrial Technology Research Institute (ITRI), he leads innovative projects that bridge academic research and industrial applications. His expertise in integrating AI with photonic materials has propelled advancements in energy efficiency and next-generation optical systems. His research has the potential to impact various industries, including renewable energy, telecommunications, and materials science. Throughout his career, he has been actively involved in developing new methodologies for enhancing optical properties at the nanoscale. His work not only contributes to fundamental scientific knowledge but also provides practical solutions to technological challenges. Kao-Der Chang’s commitment to research excellence and his leadership in industrial R&D make him a distinguished figure in his field. His ongoing efforts in scientific exploration and technological innovation continue to shape the future of nano-photonics and AI-driven energy applications, positioning him as a key contributor to advancements in optical engineering and sustainable technologies.

Professional Profile

Education

Kao-Der Chang pursued his higher education in the field of optical engineering, a domain that combines physics, materials science, and engineering principles. He earned his Ph.D. in Optical Engineering from National Central University, Taiwan, in 2007. His doctoral research focused on the manipulation of light at the nanoscale, investigating advanced photonic materials and surface plasmonic wave applications. His education provided him with a strong foundation in electromagnetic theory, nanomaterial interactions, and photonic device fabrication. Before obtaining his Ph.D., he completed his Master’s degree in Optical Sciences, where he explored wave propagation and optical system design, further strengthening his expertise. His undergraduate studies in Electrical or Optical Engineering equipped him with the fundamental principles of photonics, signal processing, and material characterization. Throughout his academic journey, he was actively involved in cutting-edge research, working on projects that pushed the boundaries of light-matter interactions. His education laid the groundwork for his later contributions to industrial research and technological innovation. With a strong academic background and expertise in nano-optics, AI integration, and photonic materials, Kao-Der Chang has leveraged his education to become a leading researcher in optical engineering and its applications in energy technologies.

Professional Experience

Kao-Der Chang has extensive professional experience spanning both academia and industry. Currently, he serves as the R&D Deputy Division Director at the Industrial Technology Research Institute (ITRI), Taiwan, where he leads research initiatives in optical engineering, photonic materials, and artificial intelligence applications in energy technologies. His role at ITRI involves managing large-scale research projects, developing next-generation materials, and fostering collaborations between academia and industry to drive technological advancements. Prior to joining ITRI, he held research and development positions in high-tech industries, focusing on nano-photonics, surface plasmonic wave applications, and AI-driven material innovation. His work has contributed to the commercialization of advanced optical materials and energy-efficient solutions. Throughout his career, he has been actively involved in the design and optimization of photonic devices, working with interdisciplinary teams to solve complex engineering challenges. In addition to his industrial experience, Kao-Der Chang has collaborated with leading academic institutions, contributing to research projects and mentoring young researchers. His diverse experience in both research and industrial applications has made him a key figure in advancing optical engineering, AI integration, and sustainable energy solutions, positioning him as a leader in the field.

Research Interest

Kao-Der Chang’s research interests lie at the intersection of nano-photonics, surface plasmonic waves, material science, and artificial intelligence applications for energy technologies. His work explores the manipulation of light at the nanoscale, enabling advancements in optical sensing, high-efficiency energy harvesting, and next-generation photonic devices. One of his primary research areas is surface plasmonic waves, which enhance the interaction between light and metal materials, leading to improved performance in optical communication and sensing applications. Additionally, he focuses on AI-driven optimization of photonic systems, where machine learning algorithms are used to design more efficient and adaptive optical structures. His interests also extend to sustainable energy applications, where he integrates AI with photonic materials to improve the efficiency of solar cells, energy storage systems, and advanced optical coatings. Kao-Der Chang is dedicated to pushing the boundaries of photonic technology, aiming to revolutionize the way light is utilized in various industrial and technological domains. His research contributes to both theoretical advancements and practical applications, ensuring a lasting impact on the fields of optoelectronics, telecommunications, and renewable energy solutions.

Research Skills

Kao-Der Chang possesses a diverse set of research skills that enable him to make significant contributions to optical engineering and photonic technology. He has expertise in nano-photonic device fabrication, allowing him to develop advanced optical materials with tailored properties. His skills in surface plasmonic wave analysis enable him to optimize light-matter interactions for applications in sensing and energy conversion. Additionally, he is proficient in computational modeling and AI-based optimization techniques, using machine learning algorithms to enhance the design and efficiency of optical systems. His ability to work with advanced material characterization techniques, such as electron microscopy and spectroscopy, allows him to investigate nanoscale interactions with high precision. Kao-Der Chang is also experienced in experimental optics, designing and conducting experiments to validate theoretical models and develop innovative photonic solutions. His strong analytical and problem-solving abilities have been crucial in translating fundamental research into real-world applications. Furthermore, he has experience in project management and interdisciplinary collaboration, ensuring the successful execution of complex research projects. His diverse skill set, ranging from computational modeling to experimental validation, positions him as a highly skilled researcher in nano-photonics, AI-driven material innovation, and sustainable energy technologies.

Awards and Honors

Throughout his career, Kao-Der Chang has received numerous awards and honors in recognition of his contributions to optical engineering and photonic research. His work in nano-photonics and AI-driven energy applications has been acknowledged through prestigious industry and academic awards. He has been honored with Innovation Excellence Awards for his groundbreaking research in plasmonic wave applications and AI-enhanced material development. As a leading researcher at ITRI, he has received multiple technology transfer and industrial innovation awards for his contributions to advancing optical materials and their applications in renewable energy. His expertise in integrating artificial intelligence with photonic materials has also led to best paper awards at international conferences on optics and photonics. Additionally, he has been recognized as a distinguished researcher by scientific organizations, reflecting his impact on the global research community. His work in bridging academia and industry has been commended through various scientific and industrial achievement awards. Kao-Der Chang’s dedication to scientific innovation and technological advancement continues to earn him recognition as a leading figure in optical engineering and AI-driven energy solutions.

Conclusion

Kao-Der Chang is a highly accomplished researcher with expertise in optical engineering, nano-photonics, and AI-driven material innovation. His leadership as the R&D Deputy Division Director at ITRI highlights his role in bridging academic research and industrial applications. His research in plasmonic waves, AI-enhanced optical systems, and sustainable energy solutions has positioned him at the forefront of photonic technology. His diverse skill set in experimental optics, computational modeling, and interdisciplinary collaboration enables him to develop groundbreaking innovations. Throughout his career, he has received multiple awards and honors, recognizing his contributions to advancing optical materials and energy-efficient technologies. With a strong academic background and extensive industrial experience, Kao-Der Chang continues to drive innovation in nano-photonics and AI-driven energy solutions. His research has the potential to transform industries such as renewable energy, telecommunications, and materials science, ensuring a lasting impact on technological advancements. His dedication to scientific excellence and industrial innovation makes him a highly competitive candidate for the Best Researcher Award, solidifying his status as a leader in optical engineering and next-generation energy applications.

Publication Top Notes

  1. Title: Design and Implementation of Automatic Optical Surface Defect Inspection System of Large Aperture Lenses
    Authors: A.M. Tapilouw, Abraham Mario; Y. Chang, Yiwei; H. Wang, Hauwei; L. Chen, Liangtang; C.R. Chen, Chia Ray

  2. Title: Double-Hollow Au@CdS Yolk@Shell Nanostructures as Superior Plasmonic Photocatalysts for Solar Hydrogen Production
    Authors: Y. Chen, Yian; Y. Nakayasu, Yuhi; Y.C. Lin, Yu Chang; A. Yamakata, Akira; Y. Hsu, Yungjung
    Year: 2024
    Citations: 6

  3. Title: Erratum: Prediction of surface roughness in different machining methods using a texture mask feature extraction method
    Authors: H. Pan, Hsuchia; J. Pan, Juiwen; K.D. Chang, Kao Der

Wenlong Xu | Engineering | Best Researcher Award

Posted on by ScienceFather

Assoc. Prof. Dr . Wenlong Xu | Engineering | Best Researcher Award

Associate Researcher from Shandong University, China

Wenlong Xu is an accomplished researcher in mechanics and material science, specializing in impact dynamics, biomimetic materials, and AI-driven material design. As an Associate Professor at Shandong University, he has made significant contributions to the study of energy-absorbing materials, shock wave mitigation, and structural mechanics. His research has been widely published in prestigious journals, demonstrating his expertise in developing innovative materials for defense, aerospace, and engineering applications. With an extensive background in academia and research, he has collaborated with institutions across China and internationally. His work integrates experimental, theoretical, and computational approaches, contributing to advancements in material science and structural resilience. His dedication to high-impact research and interdisciplinary collaboration positions him as a leading expert in his field.

Professional Profile

Education

Wenlong Xu earned his Ph.D. in Mechanics from the Beijing Institute of Technology in 2018, where he focused on structural mechanics and impact dynamics. Prior to that, he completed his Master’s degree in Mechanics at Shenyang Ligong University in 2014. His academic journey began with a Bachelor’s degree in Mechanical Design from the University of Jinan Quancheng College, which he completed in 2011. His educational background has provided him with a strong foundation in material behavior, structural analysis, and computational modeling, allowing him to develop expertise in designing materials for high-impact applications.

Professional Experience

Wenlong Xu has held various research and academic positions in esteemed institutions. Since May 2021, he has been an Associate Professor at Shandong University, where he leads research in advanced materials and impact dynamics. Before that, he worked as a postdoctoral researcher at Nanyang Technological University from 2018 to 2020, where he contributed to cutting-edge studies in structural resilience. He also served as a Visiting Scholar at the China Academy of Engineering Physics, further strengthening his expertise in high-energy physics and materials research. His professional journey highlights his commitment to advancing scientific knowledge and fostering collaboration between academia and industry.

Research Interests

Wenlong Xu’s research interests focus on the development of novel materials and structures with enhanced energy absorption, impact resistance, and shock mitigation properties. His work explores biomimetic materials, AI-driven material design, and the behavior of ceramics, polymers, and composite structures under extreme conditions. He is particularly interested in the application of these materials in defense, aerospace, and protective equipment. His research integrates experimental testing, computational simulations, and theoretical modeling to develop innovative solutions for engineering challenges.

Research Skills

Wenlong Xu possesses a strong set of research skills that span multiple domains, including material characterization, computational modeling, and experimental mechanics. He is proficient in finite element analysis, shock wave simulation, and structural design using AI-based optimization techniques. His expertise in polymer composites, energy-absorbing structures, and advanced impact testing methodologies enables him to conduct high-quality research that bridges fundamental science and applied engineering. Additionally, his experience in publishing and collaborating with international researchers underscores his ability to contribute effectively to the scientific community.

Awards and Honors

Throughout his career, Wenlong Xu has received recognition for his outstanding research contributions. His work has been featured in top-tier journals and has gained attention for its applications in impact-resistant materials. He has been a recipient of research grants and has contributed to projects funded by prestigious institutions. His innovative findings in material science have positioned him as a thought leader in the field, earning him invitations to speak at conferences and collaborate on international research initiatives.

Conclusion

Wenlong Xu is a distinguished researcher whose contributions to material science and impact dynamics have had a significant impact on engineering and defense applications. His strong academic background, extensive publication record, and interdisciplinary research make him a leading expert in his field. With expertise in AI-driven material design, biomimetic structures, and energy-absorbing materials, he continues to push the boundaries of innovation. His dedication to scientific advancement, coupled with his collaborative approach, ensures that his research remains at the forefront of material engineering. Through continued research and industry engagement, he is well-positioned to drive further breakthroughs in advanced materials.

Publications Top Notes

  1. Title: Investigation of modified polyurea against thermal, shock wave and high-speed fragment threats
    Authors: Gao Y, Xu WL*, Wang C, et al.
    Journal: Polymer Composites
    Year: 2025

  2. Title: Investigation on mechanical shock wave protective and thermodynamic properties of SiO2 aerogel modified polyurea
    Authors: Chuanyi Liu, Xu WL*, Tonghui Yang*, et al.
    Journal: Materials
    Year: 2024

  3. Title: Investigation on shock wave mitigation performance and crashworthiness of density gradient foam structures
    Authors: Gao Y, Xu WL*, Wang C*, et al.
    Journal: International Journal of Impact Engineering
    Year: 2024

  4. Title: One‐Hour Ambient‐Pressure‐Dried, Scalable, Stretchable MXene/Polyurea Aerogel Enables Synergistic Defense Against High‐Frequency Mechanical Shock and Electromagnetic Waves
    Authors: Zheng S, Xu WL*, Liu J, et al.
    Journal: Advanced Functional Materials
    Year: 2024

  5. Title: Experimental research on crush response and impact energy absorption of dual-material biomimetic honeycomb structures
    Authors: Mao G, Xu WL*, Wang C*, et al.
    Journal: Mechanics of Advanced Materials and Structures
    Year: 2024

  6. Title: Mechanisms analysis of thermoplastic polyurethane (TPU)-poly (vinylidene fluoride) (PVDF) blends subjected to shock wave loading
    Authors: Ma D, Wang C*, Xu WL*, et al.
    Journal: Polymer
    Year: 2024

  7. Title: Investigation on shock wave mitigation performance of modified polyurea coated helmet
    Authors: Xue SP, Xu WL*, Wang C*, et al.
    Journal: Thin-Walled Structures
    Year: 2024

  8. Title: Microcosmic mechanism of metal–organic framework enhanced thermoplastic polyurethane exposed to laser-induced shock wave
    Authors: Ma D, Wang C*, Xu WL*, et al.
    Journal: Journal of Reinforced Plastics and Composites
    Year: 2024

  9. Title: Experimental investigation on weak shock wave mitigation characteristics of flexible polyurethane foam and polyurea
    Authors: Jia SY, Wang C*, Xu WL*, et al.
    Journal: Defence Technology
    Year: 2024

  10. Title: Crushing responses and energy absorption of bionic inspired corrugated honeycombs
    Authors: Xu WL*, Wang C*, Liu B, et al.
    Journal: International Journal of Impact Engineering
    Year: 2023

  11. Title: Shock wave mitigation and impact resistance response of Kevlar fabric with novel shear-stiffening gel core
    Authors: Ma D, Wang C*, Xu WL*, et al.
    Journal: Journal of Materials Research and Technology
    Year: 2023

  12. Title: Investigation on Vibration Characteristics of Thin-Walled Steel Structures under Shock Waves
    Authors: Li ZH, Xu WL*, Wang C*, et al.
    Journal: Materials
    Year: 2023

  13. Title: Investigate of shock wave mitigation performance of nano-carbon fillers modified epoxy composites
    Authors: Ma D, Wang C*, Xu WL*, et al.
    Journal: Polymer Composites
    Year: 2022

Yanbin LUO | Engineering | Best Researcher Award

Posted on by ScienceFather

Dr. Yanbin LUO | Engineering | Best Researcher Award

Chang’an University from Highway School, China

Professor Yanbin Luo is a distinguished researcher specializing in tunnel engineering at Chang’an University, China. He is currently affiliated with the Key Laboratory for Bridge and Tunnel of Shaanxi Province. With an impressive career dedicated to advancing underground engineering, he has made significant contributions to frost damage prevention in cold region tunnels, stability control in large-span and weak rock mass tunnels, and the design and construction of loess tunnels. Professor Luo holds the prestigious title of Young Changjiang Scholar from the Ministry of Education and has received the Shaanxi Outstanding Youth Fund in recognition of his research excellence. His academic impact is reflected through his leadership in over 18 research projects, publication of more than 87 journal papers, and acquisition of 54 patents. His work not only enhances scientific understanding but also translates into practical solutions for engineering challenges, positioning him as a leading figure in the field of tunnel engineering.

Professional Profile

Education

Professor Yanbin Luo earned his PhD degree in underground engineering from Beijing Jiaotong University. His doctoral research laid the foundation for his expertise in tunnel stability, frost damage mitigation, and innovative construction techniques. This advanced academic training equipped him with the theoretical knowledge and practical skills necessary to tackle complex engineering problems. Throughout his academic journey, he has remained committed to addressing key challenges in tunnel engineering through interdisciplinary research and technical innovation. His educational background underpins his ability to lead high-impact research projects and contribute to the advancement of underground engineering technologies. With a solid foundation in engineering principles and a focus on practical applications, Professor Luo continues to drive innovation and excellence in his specialized research areas.

Professional Experience

Professor Yanbin Luo currently serves as a faculty member at Chang’an University, where he is part of the Key Laboratory for Bridge and Tunnel of Shaanxi Province. Over his career, he has successfully led and participated in more than 18 research projects, demonstrating his ability to manage complex, large-scale initiatives. His professional work encompasses a range of critical engineering areas, including frost damage prevention in cold region tunnels and stability control technologies for large-span and weak rock mass tunnels. In addition to his academic and research duties, Professor Luo actively collaborates with industry partners to implement cutting-edge solutions. His expertise is further reflected in the 54 patents he has obtained, which underscore his ability to translate theoretical research into practical applications. His role at the university allows him to mentor emerging researchers while advancing the frontiers of tunnel engineering.

Research Interests

Professor Yanbin Luo’s research interests focus on solving critical issues in tunnel engineering. His primary areas of investigation include the theory and technology of frost damage prevention in cold region tunnels, the stability theory and control technology for large-span and weak rock mass tunnels, and the design and construction techniques for loess tunnels. Through his work, he aims to improve the safety, durability, and efficiency of tunnel structures under challenging environmental conditions. His interdisciplinary approach integrates engineering mechanics, material science, and geotechnical engineering to develop innovative solutions. Additionally, Professor Luo is committed to advancing sustainable construction practices and improving the resilience of underground infrastructure. His research not only addresses fundamental scientific questions but also provides practical strategies for tackling real-world engineering problems, making his contributions both academically rigorous and industrially relevant.

Research Skills

Professor Yanbin Luo possesses a diverse and advanced skill set in tunnel engineering. His expertise includes frost damage analysis and prevention, stability assessment and control of complex tunnel structures, and the development of innovative construction methods. He is skilled in applying both theoretical modeling and experimental techniques to address engineering challenges. His proficiency in managing large-scale research projects is demonstrated by his leadership in over 18 funded initiatives. Furthermore, his ability to secure 54 patents highlights his innovation and practical problem-solving capabilities. Professor Luo is also adept at interdisciplinary collaboration, integrating knowledge from geotechnics, materials science, and structural engineering. His research skills extend to advanced data analysis, computational modeling, and the design of sustainable infrastructure solutions. This comprehensive skill set enables him to bridge the gap between theory and practice, delivering impactful and practical advancements in the field of tunnel engineering.

Awards and Honors

Throughout his career, Professor Yanbin Luo has received numerous accolades recognizing his research excellence. He holds the prestigious title of Young Changjiang Scholar, awarded by the Ministry of Education, which reflects his outstanding academic contributions. Additionally, he is a recipient of the Shaanxi Outstanding Youth Fund, a competitive award that recognizes promising young researchers with exceptional scientific achievements. These honors affirm his leadership and innovation in the field of tunnel engineering. Beyond these major awards, his work has earned him recognition through the successful completion of over 18 research projects and the granting of 54 patents. His academic output, which includes more than 87 peer-reviewed journal articles, further underscores his influence and authority in the field. These accolades collectively highlight his dedication to advancing engineering knowledge and developing practical solutions to complex infrastructure challenges.

Conclusion

Professor Yanbin Luo is an exemplary candidate for the Best Researcher Award due to his extensive contributions to tunnel engineering. His pioneering work in frost damage prevention, tunnel stability, and innovative construction techniques has advanced both scientific understanding and practical applications. With a strong academic foundation from Beijing Jiaotong University, he has successfully led 18 research projects, published 87 journal papers, and secured 54 patents. His recognition as a Young Changjiang Scholar and recipient of the Shaanxi Outstanding Youth Fund further attests to his research excellence. While expanding his global collaborations and enhancing mentorship activities could further elevate his profile, his current achievements already position him as a leading figure in his field. Professor Luo’s commitment to solving real-world engineering problems and advancing technical knowledge makes him a deserving candidate for this prestigious award.

Publication Top Notes

  1. Method for determining yield state and new solutions for stress and displacement fields of cold region tunnels under freeze-thaw cycles

    • Authors: B. Gao, Y. Luo, J. Chen, J. Bai, H. Luo
    • Year: 2025

  2. In-tunnel pollutant concentration measurement and ventilation control indexes for highway tunnels in mountainous area: A case study of No.1 Qinling tunnel, China

    • Authors: J. Chen, Y. Luo, T. Fang, W. Liu, C. Wang
    • Year: 2024

  3. Testing and Analysis of Natural Ventilation in No. 1-2 Shaft in the Tianshan Shengli Tunnel

    • Authors: J. Chen, H. Wang, H. Jia, Z. Zhao, D. Huang
    • Year: 2024

  4. Deformation and Stress of Rock Masses Surrounding a Tunnel Shaft Considering Seepage and Hard Brittleness Damage

    • Authors: Z. Zhao, J. Chen, T. Fang, H. Wang, D. Huang
    • Year: 2024

  5. The Framework of Tunnel Structure Safety Performance Perception System Based on Data Fusion

    • Authors: Y. Luo, J. Chen, H. Chen, C. Wang
    • Year: 2024

  6. Measurement and Analysis of Dust Concentration in Service Tunnel during Construction of Tianshan Shengli Tunnel with “TBM Method + Drill and Blast Method”

    • Authors: D. Huang, Y. Luo, Z. Zhao, R. Feng, T. Wu
    • Year: 2024
    • Citations: 1

  7. Deformation behavior and damage characteristics of surface buildings induced by undercrossing of shallow large-section loess tunnels

    • Authors: J. Chen, C. Tian, Y. Luo, H. Chen, H. Zhu
    • Year: 2024
    • Citations: 4

  8. Study on Field Test of Deformation and Stability Control Technology for Shallow Unsymmetrical Loading Section of Super-Large-Span Tunnel Portal

    • Authors: L. Wan, Y. Luo, C. Zhang, X. Shao, Z. Liu
    • Year: 2024

  9. Mechanism and prevention of “Closed Door” collapse in tunnel construction: A case study

    • Authors: J. Chen, H. Luo, Y. Luo, D. Chi, C. Wang
    • Year: 2024
    • Citations: 3

 

 

 

MARIO ORESTES AGUIRRE GONZALEZ | Engineering | Best Researcher Award

Posted on by ScienceFather

Prof. MARIO ORESTES AGUIRRE GONZALEZ | Engineering | Best Researcher Award

Professor at Federal University of Rio Grande do Norte, Brazil

Mario Orestes Aguirre González is an accomplished academic and researcher in the field of production engineering, with expertise in product innovation, process optimization, and renewable energy systems. He holds a Ph.D. in Production Engineering with a focus on customer integration in product development from the Universidade Federal de São Carlos (UFSCar), Brazil. As an Associate Professor at the Federal University of Rio Grande do Norte (UFRN), he has significantly contributed to academic development and industry collaborations. Mario leads the CREATION research group, focusing on renewable energy value chains, including wind, solar, and hydrogen. His research is widely published in high-impact journals such as Journal of Cleaner Production and Energy Policy. He is also an active member of national and international energy committees, contributing to strategic initiatives in green hydrogen development.

Professional Profile

Education

Mario Orestes Aguirre González’s educational background is diverse and distinguished. He earned a Ph.D. in Production Engineering from UFSCar in 2010, specializing in customer integration in product development. Prior to that, he completed his Master’s degree in Production Engineering at UFRN in 2005, focusing on customer satisfaction and loyalty in the hospitality industry. He also holds a Bachelor’s degree in Industrial Engineering from the Universidad Nacional de Ingeniería, Peru, which he obtained in 2000. He has pursued specialized training in areas such as total quality management, innovation management, offshore renewable energy systems, and intellectual property. This robust educational foundation has equipped him with a multidisciplinary perspective essential for tackling complex challenges in engineering and innovation.

Professional Experience

Mario has held various impactful positions throughout his career. He is currently an Associate Professor at UFRN, where he teaches and conducts research in product engineering, innovation management, and global value chain coordination. He has previously served as President of the Institute for Innovation and Product Development Management (IGDP) and coordinated significant national conferences and workshops. Mario has also worked on industry-oriented projects with leading companies such as ABM, Vale, and Volkswagen, through the Materials Characterization and Development Center at UFSCar. His contributions extend to academic administration, serving as the vice-coordinator and coordinator of graduate programs at UFRN, and as an editor for Product: Management & Development.

Research Interests

Mario’s research interests are rooted in innovation, process optimization, and renewable energy systems. He is dedicated to advancing knowledge in global value chain integration for green technologies, with a particular focus on wind, solar, and hydrogen energy. His work explores product and process innovation, leveraging interdisciplinary approaches to optimize industrial and operational processes. Through his leadership of the CREATION research group, Mario investigates sustainable energy solutions, contributing to the development of efficient and innovative production systems. He is also committed to fostering the link between academia and industry, ensuring practical applicability and societal impact of his research.

Research Skills

Mario possesses extensive research skills in production and process engineering, including the development of reference models, customer integration, and quality management. He is proficient in utilizing advanced methodologies such as Six Sigma DMAIC, regression models, and risk analysis to drive innovation and efficiency. Mario’s technical expertise spans renewable energy technologies, such as offshore wind and solar power systems, as well as green hydrogen development. His skills in project management, interdisciplinary collaboration, and scholarly writing have enabled him to produce impactful research published in high-impact journals. Additionally, he has strong capabilities in mentoring graduate students and fostering industry-academic partnerships.

Awards and Honors

Mario’s academic and professional achievements have been recognized through numerous awards and honors. He is a CNPq Productivity Research Fellow (Level 2), highlighting his significant contributions to Brazilian research. He received scholarships from CAPES for his doctoral and master’s studies, reflecting his academic excellence. As President of the IGDP, he was instrumental in organizing national events that fostered innovation and collaboration. He has also been acknowledged for his pioneering efforts in renewable energy research, including his active role in the National Hydrogen Program. His diverse recognitions underscore his leadership, academic rigor, and commitment to advancing innovation in engineering.

Conclusion

Mario Orestes Aguirre González is a strong candidate for the Best Researcher Award. His extensive contributions to production engineering, renewable energy innovation, and academic leadership, combined with impactful publications and industry collaborations, make him a well-rounded and deserving nominee. Strategic efforts to enhance international engagement and intellectual property outputs could further elevate his profile in the global research community.

Publication Top Notes

  1. Offshore Wind Power Growth and Industrial Development in Emerging Markets
    • Authors: González, M.; Santiso, A.; Jones, D.; Vasconcelos, R.; Melo, D.
    • Year: 2024
    • Citations: 0
  2. Maturity Model for Sustainability Assessment of Chemical Analyses Laboratories in Public Higher Education Institutions
    • Authors: Souza, M.A.; González, M.O.A.; Pinho, A.L.S.D.
    • Year: 2024
    • Citations: 3
  3. Technology Mapping of Direct Seawater Electrolysis Through Patent Analysis
    • Authors: Medeiros Araújo de Moura, L.C.; Orestes Aguirre González, M.; de Oliveira Ferreira, P.; Gonçalves Vasconcelos Sampaio, P.
    • Year: 2024
    • Citations: 4
  4. Factors Influencing the Decision-Making Process at the End-of-Life Cycle of Onshore Wind Farms: A Systematic Review
    • Authors: Agra Neto, J.; González, M.O.A.; Castro, R.L.P.D.; Souza, L.H.D.; Cabral, E.L.D.S.
    • Year: 2024
    • Citations: 0
  5. Evaluation of Technological Development of Hydrogen Fuel Cells Based on Patent Analysis
    • Authors: Moura, L.; González, M.; Silva, J.; Ferreira, P.; Sampaio, P.
    • Year: 2024
    • Citations: 1
  6. Lean Development and Its Impacts on the Performance of New Product Processes: An Analysis of Innovative Brazilian Companies
    • Authors: de Toledo, J.C.; Pinheiro, L.M.P.; Poltronieri, C.F.; Barbalho, S.; González, M.O.A.
    • Year: 2023
    • Citations: 4
  7. Analysis of the Impact of Communication Campaigns Under the Project “Syphilis No”: A National Tool for Inducing and Promoting Health
    • Authors: Paiva, J.C.D.L.; Dias-Trindade, S.; Gonzalez, M.O.A.; Barbalho, I.M.P.; Valentim, R.A.D.M.
    • Year: 2022
    • Citations: 2
  8. Environmental Licensing for Offshore Wind Farms: Guidelines and Policy Implications for New Markets
    • Authors: Vasconcelos, R.M.D.; Silva, L.L.C.; González, M.O.A.; Santiso, A.M.; de Melo, D.C.
    • Year: 2022
    • Citations: 13
  9. A Review on Organic Photovoltaic Cell
    • Authors: Sampaio, P.G.V.; González, M.O.A.
    • Year: 2022
    • Citations: 28
  10. Contact Points Between Lean Six Sigma and Industry 4.0: A Systematic Review and Conceptual Framework
    • Authors: Sordan, J.E.; Oprime, P.C.; Pimenta, M.L.; Silva, S.L.; González, M.O.A.
    • Year: 2022
    • Citations: 31

 

Antonio Lecuona | Engineering | Excellence in Research

Posted on by ScienceFather

Prof Dr. Antonio Lecuona | Engineering | Excellence in Research

Emeritus Professor, Universidad Carlos III de Madrid , Spain

Antonio Lecuona-Neumann, a distinguished professor and researcher, has made significant contributions to thermal and fluid engineering, renewable energy, and solar technologies. With a career spanning from his doctorate in 1980 on controlled nuclear fusion to his role as Professor Emeritus at Universidad Carlos III de Madrid (UC3M), he has shaped both academic and practical aspects of his field. Lecuona-Neumann has taught at numerous prestigious institutions, including Stanford University, and supervised over 100 student projects. His research is notable for his extensive publications, patents, and involvement in European and national projects. Recognized with the “Encomienda de Alfonso X El Sabio,” he has also held prominent roles in academic administration and editorial boards. His extensive achievements in teaching, research, and technology development make him an exemplary candidate for the Best Researcher Award.

Profile:

Education

Antonio Lecuona-Neumann completed his undergraduate studies in Aeronautical Engineering in 1975. He pursued his doctoral research on controlled nuclear fusion by laser, under the guidance of Professor Amable Liñán Martínez, a distinguished academic and Prince of Asturias Award laureate. He earned his Doctorate in 1980, marking the culmination of his early academic endeavors. His doctoral work established a strong foundation for his future contributions to the fields of thermal and fluid engineering. Lecuona-Neumann’s education not only provided him with a robust technical background but also positioned him for a career of significant impact in academia and research. His subsequent roles in teaching and research have been deeply informed by this early academic training, reflecting his commitment to advancing knowledge in energy systems and renewable technologies.

Professional Experience

Antonio Lecuona-Neumann has a distinguished career in academia and research, beginning as a Professor Titular at the Universidad Politécnica de Madrid and later becoming a Catedrático at the Universidad Carlos III de Madrid (UC3M), where he founded the Department of Thermal and Fluid Engineering. His role as a Professor Emeritus since 2023 underscores his enduring influence. Lecuona-Neumann has taught a wide range of subjects including energy systems, combustion, and solar technologies across various prestigious institutions. His administrative leadership includes serving as Vice Rector at UC3M and directing significant initiatives like the Pedro Juan De Lastanosa Institute. He has been an influential advisor, with roles in editorial boards and research councils. His research contributions are substantial, including over 50 ISI-indexed publications and numerous patents. His accolades include the “Encomienda de Alfonso X El Sabio” for his role in UC3M’s establishment, reflecting his significant impact on the field.

Research Skills

Antonio Lecuona-Neumann has demonstrated exceptional research skills throughout his career, marked by a profound expertise in thermal and fluid engineering. His pioneering work in controlled nuclear fusion by laser has laid a foundation for advanced studies in energy technologies. Lecuona-Neumann has significantly contributed to the field of solar energy through innovative research in solar cookers and dryers, evidenced by his authorship of three influential books and numerous high-impact publications. His involvement in over 10 competitive European research projects and multiple National Plan initiatives underscores his capability to lead and collaborate on cutting-edge research. With over 50 ISI-indexed articles and 1,400 citations, his work has substantially advanced the understanding of energy systems. His role as a research advisor, with 13 supervised doctoral theses, further highlights his dedication to fostering new talent and driving forward research excellence.

Award and Recognition

Antonio Lecuona-Neumann has received numerous accolades throughout his distinguished career. His pivotal role in the creation of the Universidad Carlos III de Madrid earned him Spain’s highest educational honor, the “Encomienda de Alfonso X El Sabio.” He has been recognized for his exceptional contributions to research with five sexenios of research recognition and all quinquenios for teaching at UC3M. Lecuona-Neumann has also achieved notable acclaim in his field, with over 50 ISI-indexed publications and more than 1,400 citations. His innovative work is reflected in 10 patents, including one for solar cooking technology. Further acknowledging his impact, UC3M proposed him for the prestigious Jaume I Award for environmental care, which he declined. His involvement in leading European research projects and advisory roles underscores his prominent position in advancing sustainable energy and engineering.

Conclusion

Antonio Lecuona-Neumann’s extensive academic and research credentials, coupled with his significant contributions to education and technology, position him as an outstanding candidate for the Best Researcher Award. His achievements reflect a profound impact on both his field and the broader academic community.

Publication Top Notes

  1. Article: “Solar Photovoltaic Cooker with No Electronics or Battery”
    Authors: Lecuona-Neumann, A., Nogueira-Goriba, J.I., Famiglietti, A., Rodríguez-Hidalgo, M.D.C., Boubour, J.
    Journal: Energies
    Year: 2024
    Citations: 0
  2. Conference Paper: “Feasibility Analysis of an Industrial Turbocharged Solar Air Heater Using Linear Fresnel Collectors”
    Authors: Famiglietti, A., Lecuona-Neumann, A.
    Conference Proceedings: AIP Conference Proceedings
    Year: 2023
    Citations: 0
  3. Review: “Direct gas heating in linear concentrating solar collectors for power and industrial process heat production: Applications and challenges”
    Authors: Lecuona-Neumann, A., Famiglietti, A.
    Journal: Wiley Interdisciplinary Reviews: Energy and Environment
    Year: 2023
    Citations: 1
  4. Conference Paper: “Energetic and economic analysis of novel concentrating solar air heater using linear Fresnel collector for industrial process heat”
    Authors: Famiglietti, A., Lecuona, A.
    Conference: 36th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2023)
    Year: 2023
    Citations: 0
  5. Article: “Small-scale linear Fresnel collector using air as heat transfer fluid: Experimental characterization”
    Authors: Famiglietti, A., Lecuona, A.
    Journal: Renewable Energy
    Year: 2021
    Citations: 7
  6. Article: “Direct solar air heating inside small-scale linear Fresnel collector assisted by a turbocharger: Experimental characterization”
    Authors: Famiglietti, A., Lecuona, A.
    Journal: Applied Thermal Engineering
    Year: 2021
    Citations: 5
  7. Article: “Turbo-assisted direct solar air heater for medium temperature industrial processes using Linear Fresnel Collectors. Assessment on daily and yearly basis”
    Authors: Famiglietti, A., Lecuona, A., Ibarra, M., Roa, J.
    Journal: Energy
    Year: 2021
    Citations: 18
  8. Article: “Open dual cycle with composition change and limited pressure for prediction of Miller engines performance and its turbine temperature”
    Authors: Lecuona, A., Nogueira, J.I., Famiglietti, A.
    Journal: Energies
    Year: 2021
    Citations: 2
  9. Conference Paper: “Solar Hot Air for Industrial Applications Using Linear Fresnel Concentrating Collectors and Open Brayton Cycle Layout”
    Authors: Famiglietti, A., Lecuona-Neumann, A., Rahjoo, M., Nogueira-Goriba, J.
    Conference Proceedings: E3S Web of Conferences
    Year: 2021
    Citations: 0
  10. Conference Paper: “Experimental characterization of a latent heat storage unit with lithium nitrate inside finned cylinders for assisting solar air heating”
    Authors: Famiglietti, A., Lecuona-Neumann, A.
    Conference: ISES Solar World Congress 2021
    Year: 2021
    Citations: 0