Tomaso Gaggero | Naval Architecture | Best Researcher Award

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Prof.  Tomaso Gaggero | Naval Architecture | Best Researcher Award

Associate Professor University of Genova, Italy

AUTHOR PROFILE

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SUMMARY

Prof. Tomaso Gaggero is an Associate Professor at the Department of Naval, Electrical, Electronic and Telecommunication Engineering (DITEN), University of Genova, Italy. An internationally recognized expert in naval architecture and underwater acoustics, his work focuses on underwater noise generated by ships and its ecological impacts. He plays a leading role in European research projects and contributes extensively to international regulatory and scientific bodies on maritime noise emissions.

EDUCATION

  • Ph.D. in Naval Architecture (2013) – University of Genova, Thesis: Noise and vibrations on board ships

  • M.Sc. in Naval Architecture (2009) – University of Genova, 110/110 cum laude

  • B.Sc. in Naval Architecture (2006) – University of Genova, 106/110

PROFESSIONAL EXPERIENCE

Prof. Gaggero began his academic career as a contract researcher at the University of Genova in 2013 and progressed to Assistant Professor (RTDA in 2014, RTDB in 2016), before becoming Associate Professor in 2019. He earned the Italian National Scientific Qualification for Full Professor in 2022. Internationally, he served as a visiting researcher in Spain and has been actively involved in EU-funded projects such as AQUO, SONIC, ROBINS, MON ACUMEN, SICOMAR plus, and LIFE-Piaquo. He represents Italy at the International Maritime Organization (IMO) on underwater radiated noise and serves on technical committees of the ISSC.

RESEARCH INTEREST

His current research focuses on:

  • Experimental and numerical characterization of underwater radiated noise (URN) from ships

  • Modeling noise source levels and propagation in the marine environment

  • Assessing ecological impacts of maritime noise on marine life

  • Developing mitigation strategies through ship design and real-time monitoring

AWARD AND HONOR

  • 2022 – Achieved National Scientific Qualification for Full Professorship in Naval and Aerospace Engineering (09/A1)

  • Guest Editor – Special Issue of IEEE Journal of Oceanic Engineering on Waterborne Noise Emissions from Shipping

  • Associate EditorFrontiers in Marine Science – Ocean Engineering and Blue Economy

  • Scientific Advisor – Multiple EU and industrial research projects including CETENA, LEONARDO, and CMRE collaborations

RESEARCH SKILL

Dr. Tomaso Gaggero possesses advanced research skills in the fields of naval architecture, underwater acoustics, and shipborne noise emissions. His expertise lies particularly in the experimental and numerical characterization of ships as sources of underwater radiated noise and its environmental impacts. He has developed and validated innovative models for ship noise source levels and sound propagation in marine environments, contributing to sustainable maritime practices. With a strong command of measurement techniques using sonobuoys, numerical simulations, and signal processing, Dr. Gaggero has led and collaborated on numerous national and international research projects funded by the EU and private organizations. His capacity to integrate multidisciplinary approaches is evident from his roles in major EU-funded programs such as SONIC, AQUO, LIFE-Piaquo, and ROBINS. Furthermore, he is actively engaged in shaping international standards on underwater noise as a technical advisor and committee member within the International Maritime Organization (IMO) and ISSC. His editorial work with top-tier journals and ongoing collaborations with research institutions and industry partners highlight his ability to bridge theoretical research with practical engineering solutions

PUBLICATIONS

1. Propeller Design by Optimisation for Underwater Radiated Noise Reduction: A Full Scale Application
Authors: S. Gaggero, T. Gaggero, G. Tani, D. Villa, E. Rizzuto, O. Pinto, P. Becchi
Journal: Ocean Engineering, Volume 333, Article 121412
Year: 2025
Summary:
This paper presents a full-scale application of a propeller optimization approach aimed at reducing underwater radiated noise. It combines computational and experimental methodologies to optimize the propeller geometry. The study focuses on mitigating cavitation effects while maintaining hydrodynamic performance and evaluates the results through numerical simulations and full-scale measurements.

2. Comparison Between Measured and Predicted Airborne Noise Sources on the External Surface of a Cruise Ship
Authors: L. Mocerino, M. Viscardi, T. Gaggero, E. Rizzuto, D. Borelli, C. Schenone
Publication: Innovations in the Analysis and Design of Marine Structures, Page 475
Year: 2025
Summary:
This study compares measured and predicted airborne noise levels on a cruise ship’s external surfaces. It evaluates the performance of acoustic prediction tools by validating them with field measurements. The research identifies major noise-emitting components and assesses the discrepancies between simulations and actual data.

3. Quantification of Airborne Noise Emitted by Ships Based on Class Notation
Authors: M. Biot, D. Borelli, T. Gaggero, E. Lembo, L. Mocerino, G. Rognoni
Journal: Ocean Engineering, Volume 296, Article 117085
Year: 2024
Summary:
The paper presents a methodology for quantifying airborne noise emissions from ships in relation to classification society notations. It includes both numerical modeling and measurement campaigns to assess the correlation between noise levels and class limits, offering a framework for standardized evaluation.

4. Electric Boat Underwater Radiated Noise and Its Potential Impact on Species of Conservation Interest
Authors: T. Gaggero, E. Armelloni, A. Codarin, C. Chicco, M. Spoto, C. Franzosini
Journal: Marine Pollution Bulletin, Volume 199, Article 115937
Year: 2024
Summary:
This study investigates the underwater radiated noise generated by electric boats and its potential environmental impacts on marine species of conservation concern. Acoustic measurements were performed in marine protected areas to understand how low-emission vessels affect sensitive ecosystems.

5. Numerical Models for the Prediction of Ship Airborne Noise Emissions
Authors: M. Biot, G. Rognoni, C. Schenone, D. Borelli, E. Rizzuto, T. Gaggero
Conference: Proceedings of the International Congress on Sound and Vibration
Year: 2024
Summary:
The paper introduces numerical models developed for predicting airborne noise emissions from ships. These models incorporate structural and acoustic analyses to simulate noise propagation paths and identify dominant sources on board. The study serves to enhance ship design practices and regulatory compliance.

CONCLUSION

Prof. Tomaso Gaggero stands out as an exemplary candidate for the Best Researcher Award in Naval Architecture. His unique blend of deep academic knowledge, technical innovation, international collaboration, and environmental commitment places him at the forefront of maritime research. His work addresses urgent global challenges, such as the ecological impact of shipborne noise, and sets industry-leading standards in sustainable ship design and noise mitigation.

With growing global emphasis on green maritime practices, Prof. Gaggero’s contributions are not only academically significant but also strategically vital for the future of environmentally responsible naval engineering.

Liu Yanping – Environmental Engineering – Best Researcher Award

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Liu Yanping - Environmental Engineering - Best Researcher Award

Zhejiang Ocean University - China

AUTHOR PROFILE

ORCID

SUMMARY

Liu Yanping is an Associate Professor at Zhejiang Ocean University with deep expertise in environmental engineering and composite photocatalytic materials. With more than 50 SCI-indexed publications and several prestigious citations, she is a leading researcher in environmental purification and marine ecological restoration. Her innovative contributions combine advanced materials with green technologies, especially in the context of solar fuel applications. Liu Yanping’s academic influence is reinforced by her active role as a reviewer for prominent journals and her global collaborations. Her work consistently advances sustainable solutions in pollution control and renewable energy integration through multidisciplinary approaches.

EDUCATION

Liu Yanping holds a Ph.D. in Engineering, equipping her with a strong foundation in environmental technologies and materials science. Her academic path has been dedicated to studying the interaction between material development and environmental applications, particularly using photocatalytic materials for purification. This education enabled her to bridge theory with applied solutions for environmental challenges. Her doctoral studies provided critical training in analytical techniques and experimental design, empowering her ongoing research into solar-driven catalytic systems. Liu’s educational experience reflects a consistent commitment to ecological improvement through scientific advancement and sustainable materials innovation.

PROFESSIONAL EXPERIENCE

Liu Yanping has been serving at Zhejiang Ocean University since 2009, contributing to teaching, research, and international collaboration. From 2013 to 2014, she expanded her expertise as a visiting scholar at Oregon State University, USA, gaining exposure to global research practices and strengthening her academic network. Over the years, she has led various projects focused on marine environmental systems and green remediation. Her role involves guiding postgraduate students, publishing extensively, and reviewing for international journals. Through her academic leadership and project management, Liu has cultivated a prominent role in environmental research and sustainable innovation.

RESEARCH INTEREST

Liu Yanping’s research explores the interface of environmental purification, marine ecological restoration, and photocatalytic technologies. She focuses on designing composite photocatalysts that harness solar energy to break down pollutants and drive clean fuel production. Her work aims to develop scalable, efficient, and low-cost materials that address urgent environmental issues such as water contamination and air pollution. Liu is also interested in integrating these materials into ecological restoration processes, especially in coastal and marine environments. Her research targets real-world environmental problems using advanced nanomaterials, sustainable chemistry, and clean energy strategies.

AWARD AND HONOR

Liu Yanping's achievements include over 50 publications in high-impact journals and recognition through ESI distinctions—9 Highly Cited and 10 Hot Papers. These accolades signify her work’s influence and scientific quality in environmental engineering. She also holds 8 national invention patents, demonstrating innovation beyond academia. Liu’s selection as a journal reviewer and her invitations to global collaborations reflect the respect she commands in the scientific community. Her work has become a reference point in the development of photocatalytic technologies and marine restoration, earning her a strong academic reputation and international acknowledgment.

RESEARCH SKILL

Liu Yanping possesses a broad array of research skills, including synthesis of nanocomposites, photocatalytic activity testing, and surface analysis techniques like XRD and SEM. She is adept in designing multi-functional materials for environmental purification and solar energy conversion. Her practical experience includes scaling laboratory findings for field applications in marine ecological recovery. Liu also brings expertise in proposal writing, patent drafting, and interdisciplinary collaboration. Her analytical mindset and technical capabilities enable her to explore complex environmental systems with precision and innovation. These skills make her a leading figure in environmental materials research.

PUBLICATIONS

Title: A fast and accurate estimation of amperometric current response in reaction kinetics
Authors: Liu, Yan-Ping; He, Ji-Huan
Journal: Journal of Electroanalytical Chemistry

Title: Surface plasmon effect combined with S-scheme charge migration in flower-like Ag/Ag₆Si₂O₇/Bi₁₂O₁₇Cl₂ enables efficient photocatalytic antibiotic degradation
Authors: Shen, Chuqi; Li, Xinyu; Xue, Bing; Feng, Diejing; Liu, Yanping; Yang, Fang; Zhang, Mingyi; Li, Shijie
Journal: Applied Surface Science

Title: 1D FeS-Ni₃S₂/NF nanocatalysts with rigid polysulfide segment as sulfur source and in situ intercalator for enhanced oxygen evolution reaction activity
Authors: Qian Zhao; Jianlong Gou; Mengxinyue Zhang; Hong Chen; Guiyu Zhu; Xiaoxiao Zhang; Yanan Xue; Yanping Liu; Jianzhi Wang
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects

Title: Clover-Inspired Fractal Architectures: Innovations in Flexible Folding Skins for Sustainable Buildings
Authors: Yan-Ping Liu; Chun-Hui He; Khaled A. Gepreel; Ji-Huan He
Journal: Fractals

Title: Carbon quantum dots and interfacial chemical bond synergistically modulated S-scheme Mn₀.₅Cd₀.₅S/BiOBr photocatalyst for efficient water purification
Authors: Shijie Li; Changjun You; Qingquan Xue; Yiqian Zhao; Fang Yang; Yanping Liu; Lina Bai; Mingyi Zhang; Chunqiang Zhuang
Journal: Journal of Materials Science & Technology

Title: Leveraging Lotus Seeds’ Distribution Patterns for Fractal Super-Rope Optimization
Authors: Yan-Ping Liu; Ji-Huan He; Md Hasan Mahmud
Journal: Fractals

CONCLUSION

Liu Yanping’s academic contributions illustrate a steadfast commitment to environmental sustainability through science and innovation. Her work on photocatalytic materials and marine ecological recovery provides practical and scalable solutions to pollution and energy challenges. As a recognized researcher and educator, she influences the future of environmental engineering through mentorship, international collaboration, and high-impact publications. Her ability to blend scientific insight with real-world application positions her as a critical voice in green technology development. Liu Yanping remains at the forefront of advancing clean, efficient, and sustainable technologies for environmental restoration and renewable energy use.

Hocine Heraiz – Solid Waste Management – Waste Reduction and Management Award

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Hocine Heraiz - Solid Waste Management - Waste Reduction and Management Award

University Of Science and technology Beijing - China

AUTHOR PROFILE

GOOGLE SCHOLAR

ORCID

SUMMARY

Hocine Heraiz is a dedicated Ph.D. researcher in Mineral Processing Engineering at the University of Science and Technology Beijing. His academic journey focuses on sustainable construction materials, particularly ultra-high-performance concrete (UHPC) derived from industrial solid waste. With expertise in mechanical property testing and microstructure analysis, he contributes significantly to environmentally friendly construction innovations. His research blends materials science, recycling, and engineering solutions to promote sustainability. Hocine is proficient in scientific tools like Origin Pro, High Score Plus, and Excel, and skilled in multilingual communication. His professional path exemplifies technical expertise, innovation, and commitment to green development.

EDUCATION

Hocine holds a Ph.D. in Mineral Processing Engineering from UST Beijing, where his thesis focuses on UHPC made from solid waste. He also earned a Master’s in Materials Science from the University of Msila, focusing on eco-friendly bio-composites, and an Engineering degree in Mining from the National Polytechnic School of Algeria. His academic background integrates solid waste recycling, mining processes, fiber reinforcement, and alkaline treatment of natural fibers. He participated in renewable energy training, further expanding his multidisciplinary expertise. Hocine’s education reflects a strong commitment to sustainable materials and innovative construction solutions across mining and environmental sectors.

PROFESSIONAL EXPERIENCE

Hocine Heraiz has served as a Mining Engineer in Algeria, leading mining operations with a focus on safety and efficiency. He held an academic role as an Associate Professor at the University of Msila and worked as a Site Manager at GRTI, overseeing construction projects. Most recently, he supported the Embassy of Algeria in China as an Administrator and Technical Staff member, ensuring operational excellence and document management. His roles have encompassed leadership, technical troubleshooting, team coordination, and regulatory compliance, demonstrating his capacity to adapt across academic, industrial, and diplomatic environments with a results-driven approach.

RESEARCH INTEREST

Hocine's research interests center on sustainable development through the utilization of industrial by-products for the preparation of UHPC. He explores the mechanical and microstructural behavior of concrete enhanced by recycled materials and steel fibers. His work emphasizes reducing carbon emissions by creating cementitious materials from metallurgical waste. He also investigates bio-composites reinforced with natural fibers and the use of ANN for mechanical modeling. Hocine's passion lies in the circular economy and innovative construction technologies that bridge material science, waste recycling, and structural engineering to deliver high-performance, environmentally responsible building materials.

AWARD AND HONOR

Hocine Heraiz was awarded the Silver Prize in the prestigious “Challenge Cup” Entrepreneurship Competition, under the “Belt and Road” International Track. This award recognized his project on innovative cotton processing technologies for solid waste utilization, which contributes to the green goals of the Belt and Road Initiative. This honor not only acknowledges his scientific and technical innovation but also emphasizes his ability to link academic research with real-world sustainability challenges. It showcases his role as an emerging leader committed to advancing ecological engineering solutions in the international research community.

RESEARCH SKILL

Hocine demonstrates robust research capabilities in experimental design, mechanical testing, and advanced characterization techniques such as SEM, FTIR, XRD, and TGA-DSC. He is skilled in data modeling using ANN and RSM, and proficient with software tools like Origin Pro, High Score Plus, and Excel. His experience includes the optimization of concrete formulations, fiber reinforcement effects, and sustainability evaluation. Hocine’s interdisciplinary expertise bridges civil engineering, materials science, and data science, enabling him to produce high-impact, reproducible research results aligned with global sustainability goals. His meticulous approach enhances the quality and practical relevance of his findings.

PUBLICATIONS

Examining the Bending Test Properties of Bio-Composites Strengthened with Fibers Through a Combination of Experimental and Modeling Approaches
Authors: K. Saada, C. Farsi, S. Amroune, M. Fnides, M. Zaoui, H. Heraiz
Journal: Journal of Composite Materials 58 (12), 1483–1499

Assessment of Mechanical and Physicochemical Properties of Palm Fiber Composites: Effect of Alkaline Treatment and Volume Alterations
Authors: H. Heraiz, C. Farsi, H. Makri, S. Amroune, A. Belaadi, K. Saada, M. Zaoui, ...
Journal: Journal of Composite Materials 58 (15), 1789–1800

Optimization of Ultra-High-Performance Concrete Using a Clinker-Free Binder and Iron Mine Tailings Aggregate
Authors: H. Heraiz, X. Mu, J. Li, B. Lei, S. Zhang, Y. Li, S. Zhu, W. Ni, M. Hitch
Journal: Minerals 15 (1), 28

The Effect of the Meshing Technique on Cracking and Its Extension in a Bio Composite Plate
Authors: K. Saada, S. Amroune, M. Zaoui, R. Benyettou, H. Heraiz
Journal: (Journal name not explicitly stated — likely in conference proceedings or pre-print platform)

Numerical Study of Mechanical Properties and Crack Propagation in a 2024 T3 Aluminum Plate
Authors: K. Saada, S. Amroune, M. Zaoui, H. Heraiz, R. Benyettou
Journal: (Journal name not explicitly stated — likely in conference proceedings or under review)

CONCLUSION

Hocine Heraiz exemplifies the fusion of research, engineering, and sustainable development. With a strong academic foundation, practical field experience, and award-winning innovation, he contributes valuable knowledge to the field of material science and environmental engineering. His commitment to sustainability, scientific rigor, and interdisciplinary collaboration places him at the forefront of green construction solutions. Hocine’s work is impactful and forward-looking, aiming to address global environmental challenges through cutting-edge research. As he continues to explore high-performance, low-carbon materials, Hocine remains a promising figure in the future of sustainable infrastructure and academic leadership.

Sukarman Sukarman | Materials Science and Engineering | Best Researcher Award

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Mr . Sukarman Sukarman | Materials Science and Engineering | Best Researcher Award

Universitas Buana Perjuangan Karawang , Indonesia

Sukarman, a lecturer at Universitas Buana Perjuangan Karawang and a Ph.D. candidate in Mechanical Engineering, is a promising researcher with a strong focus on nanomaterials, nanofluids, and thermal-fluid sciences. He has consistently published Scopus-indexed research, often as the first or corresponding author, demonstrating leadership and commitment to his field. His work addresses relevant issues in energy efficiency and manufacturing, contributing to both academic knowledge and practical industrial applications. While his research output is commendable, there is room for improvement in increasing citation impact, diversifying publication venues, and establishing international collaborations. His current pursuit of a doctoral degree further underscores his dedication to academic advancement. Overall, Sukarman’s research performance, publication consistency, and focus on emerging engineering topics make him a strong candidate for the Best Researcher Award, particularly at the national or institutional level, with significant potential for future growth and wider academic impact.

PROFESSIONAL PROFILE

EDUCATION🎓

Sukarman has built a solid educational foundation in mechanical engineering, beginning with his Bachelor of Engineering degree from Universitas Islam ’45 Bekasi, which he completed in 2014. He continued his academic journey by earning a Master of Engineering degree from Universitas Pancasila in 2018, where he began to deepen his expertise in mechanical systems and thermal engineering. Currently, he is pursuing a Ph.D. in Mechanical Engineering at Universitas Sebelas Maret, Surakarta, further advancing his specialization in nanomaterials, nanofluids, and energy-efficient technologies. His continuous pursuit of higher education reflects a strong commitment to academic growth and research excellence. Throughout his studies, Sukarman has demonstrated a keen interest in integrating theoretical knowledge with experimental research, particularly in thermal performance and material science. His educational trajectory not only supports his current research focus but also positions him well for future contributions to the field of mechanical engineering, both as a scholar and an educator.

PROFESSIONAL EXPERIENCE📝

Sukarman serves as a lecturer in the Department of Mechanical Engineering at Universitas Buana Perjuangan Karawang, where he plays a key role in teaching, research, and academic development. His professional journey reflects a strong dedication to both education and research, particularly in the areas of nanomaterials, thermal systems, and manufacturing processes. In addition to his teaching responsibilities, he actively supervises student projects and contributes to curriculum enhancement within his department. Sukarman has successfully integrated his research interests into his academic role, publishing multiple Scopus-indexed papers and leading several studies as the first or corresponding author. His hands-on experience in experimental mechanics, coupled with his academic background, allows him to bring real-world engineering challenges into the classroom. His involvement in conferences, journal publications, and applied research initiatives demonstrates a commitment to advancing mechanical engineering both in theory and practice. Sukarman’s professional experience showcases a balanced blend of academic leadership and technical expertise.

RESEARCH INTEREST

Sukarman’s research interests lie at the intersection of advanced materials and thermal-fluid sciences, with a particular focus on nanomaterials, nanofluids, and their applications in mechanical and energy systems. He is deeply engaged in exploring how nanomaterials can enhance the thermal conductivity and efficiency of industrial cooling systems, especially in processes like plastic injection molding and transformer cooling. His work also extends to manufacturing processes, including metal forming and resistance spot welding, where he investigates optimization techniques to improve mechanical performance and energy use. Sukarman is interested in experimental mechanics, applying hands-on testing methods to validate models and improve system designs. His research contributes to solving practical engineering challenges while also advancing theoretical understanding in heat transfer, energy efficiency, and sustainable materials. This blend of applied and experimental research underlines his commitment to innovation in mechanical engineering, making his work relevant to both academic and industrial advancements in energy and manufacturing technologies.

AWARD AND HONOR🏆

While specific awards and honors have not been listed, Sukarman’s growing body of peer-reviewed publications and his active role as a first or corresponding author in multiple Scopus-indexed journals reflect academic recognition and professional respect within his field. His selection as a lead author in research involving advanced nanofluids and mechanical systems optimization demonstrates the trust and acknowledgment he has earned from his academic peers and collaborators. Additionally, his ongoing Ph.D. studies and increasing involvement in high-impact research indicate a trajectory toward greater academic distinction. As a faculty member contributing significantly to research and education, he is well-positioned for future honors, such as best paper awards, research grants, or institutional recognitions. His commitment to high-quality research, innovation in mechanical engineering, and consistent scholarly output mark him as a strong candidate for future accolades, including the Best Researcher Award, as his contributions continue to grow in relevance and impact within the academic and engineering communities.

RESEARCH SKILL🔬

Sukarman possesses strong and diverse research skills that are well-aligned with the demands of modern mechanical engineering. His expertise spans experimental design, data analysis, materials characterization, and process optimization. He demonstrates a solid command of nanomaterials and nanofluids, particularly in enhancing thermal performance for industrial applications. His ability to design and conduct complex experiments—such as investigating heat transfer behavior in customized cooling systems or analyzing mechanical properties in metal forming—shows a high level of technical competence. Sukarman is skilled in using tools such as Taguchi Design of Experiments (DOE) for optimization and various analytical techniques for material and thermal analysis. His multiple first-author publications indicate proficiency in academic writing, literature review, and scientific communication. Furthermore, his collaborative work across projects reflects his ability to work within interdisciplinary teams. These research skills not only support his current projects but also equip him to contribute meaningfully to innovation and applied research in mechanical engineering.

CONCLUSION

Sukarman stands out as an emerging expert in nanomaterials and mechanical engineering research. His career merges academic instruction with experimental discovery, producing practical results that advance both theory and application. He consistently contributes to high-quality research, demonstrating a passion for developing sustainable technologies in energy and materials science. With strong publication credentials and an evolving academic profile, Sukarman is well-positioned to influence next-generation mechanical engineering practices. His pursuit of excellence in research and education ensures a lasting impact on both students and the broader engineering community.

PUBLICATIONS

Enhancing Thermal Conductivity of TiO₂-3%F⁺/MEG-40 Binary Nanofluid for Sustainable Cooling Systems in Plastic Injection Molding Applications

  • Authors: Sukarman, Budi Krisitiawan, Eko Prasetya Budiana, Khoirudin, Amri Abdulah

  • Journal: Journal of Advanced Research in Fluid Mechanics and Thermal Sciences

  • Year: 2025

Heat Transfer Characteristic of Al₂O₃ Nanofluid with Naphthenic Transformers Oil as Base Fluid

  • Authors: Khoirudin, Budi Kristiawan, Budi Santoso, Sukarman, Amri Abdulah

  • Journal: Journal of Advanced Research in Fluid Mechanics and Thermal Sciences

  • Year: 2025

 

Kristina Radinović | Water Resources Engineering | Best Researcher Award

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Dr . Kristina Radinović | Water Resources Engineering | Best Researcher Award

Research Associate at Faculty of Physical Chemistry , Serbia

Kristina Radinović is an outstanding candidate for the Best Researcher Award, recognized for her exceptional scientific contributions, including receiving the Serbian Chamber of Commerce Award for one of the best doctoral dissertations in 2024. Her research, focused on electrochemical sensors, environmental monitoring, and energy materials, has been published in high-impact journals such as Talanta, Electrochimica Acta, and Fuel, demonstrating both academic excellence and real-world relevance. With numerous international collaborations and conference presentations, she has established a strong global presence in her field. Her work addresses critical issues like arsenic detection in water and sustainable energy, aligning with national and global priorities. While her collaborative achievements are impressive, further focus on independent research leadership, securing grants, and exploring interdisciplinary or applied research areas could enhance her profile. Overall, Radinović’s contributions to science and her impact on the national economy make her a highly deserving candidate for this prestigious award.

Professional Profile 

Education🎓

Kristina Radinović has an extensive and impressive educational background. She completed her Doctoral Studies in Chemistry at the University of Belgrade, where her dissertation focused on electrochemical sensors and their applications in environmental monitoring. Her work earned her the Serbian Chamber of Commerce Award for one of the best doctoral dissertations in 2024, highlighting both the scientific depth and national relevance of her research. Radinović’s academic journey is further complemented by numerous collaborations with esteemed researchers internationally, contributing to her broad understanding and expertise in fields like electrochemistry, nanomaterials, and environmental science. Throughout her education, she has consistently demonstrated a passion for research, reflected in her impressive publication record and her participation in prestigious conferences worldwide. This robust educational foundation has shaped her into a skilled and innovative scientist, committed to addressing pressing global challenges through her work.

Professional Experience📝

Kristina Radinović has gained significant professional experience through her work as a researcher in the fields of electrochemistry, environmental monitoring, and materials science. She is currently involved in high-level research at the University of Belgrade, where she conducts studies focused on the development of electrochemical sensors for detecting environmental contaminants like arsenic in water. Over the years, Radinović has co-authored numerous impactful publications in top-tier journals such as Talanta and Electrochimica Acta, establishing herself as a leading figure in her field. Additionally, her research has led to active collaborations with international researchers, showcasing her ability to engage in cross-border scientific endeavors. Radinović has also presented her findings at major global conferences, strengthening her professional network and further solidifying her reputation in the scientific community. Her expertise in developing nanomaterials for environmental applications and her ongoing contributions to the scientific community highlight her significant professional accomplishments.

Research Interest🔎

Kristina Radinović’s research interests primarily lie in the areas of electrochemistry, environmental sensing, and nanomaterials. She is particularly focused on developing advanced electrochemical sensors for the detection of harmful substances, such as arsenic in aqueous solutions, with an emphasis on improving sensitivity, stability, and accuracy. Her work explores the integration of reduced graphene oxide and metal nanocomposites to enhance sensor performance. Additionally, Radinović investigates energy materials, including the design of electrocatalysts for efficient oxygen reduction and evolution reactions, which have significant applications in fuel cells and metal-air batteries. Her research aims to address global environmental challenges by advancing technology for detecting toxic pollutants and improving energy storage systems. With an interdisciplinary approach, she also explores the development of sustainable materials for environmental protection and energy conversion, contributing to both scientific innovation and real-world applications. Her work holds great promise for environmental monitoring and clean energy solutions.

Award and Honor🏆

Kristina Radinović has received several prestigious awards and honors in recognition of her exceptional scientific contributions. Notably, she was awarded the Serbian Chamber of Commerce Award in 2024 for one of the best doctoral dissertations, acknowledging her significant scientific impact and the relevance of her work to the national economy. This prestigious honor highlights her innovative research in electrochemistry and environmental sensing. Additionally, Radinović has consistently been recognized for her contributions to the scientific community through numerous publications in high-impact journals such as Talanta, Electrochimica Acta, and Fuel, further solidifying her reputation in her field. Her work has also been acknowledged at various international conferences, where she has presented her findings on environmental monitoring and energy materials. These awards and honors demonstrate Radinović’s dedication to advancing scientific knowledge and her active role in addressing global challenges through her research.

Research Skill🔬

Kristina Radinović possesses a diverse set of advanced research skills that make her a highly capable scientist in the fields of electrochemistry, materials science, and environmental sensing. She is proficient in synthesizing nanomaterials such as reduced graphene oxide and metal nanocomposites, which are essential for creating high-performance electrochemical sensors. Radinović is highly skilled in electrochemical analysis techniques, including cyclic voltammetry, impedance spectroscopy, and chronoamperometry, which she uses to evaluate sensor performance and electrocatalytic behavior. Her expertise extends to the design and development of electrocatalysts for energy conversion applications like oxygen reduction and evolution reactions, critical for fuel cells and metal-air batteries. She is also adept at data analysis and statistical modeling, ensuring that her research is robust and reproducible. Furthermore, her ability to collaborate internationally and present findings at leading conferences demonstrates her strong communication skills and commitment to scientific dissemination.

Conclusion💡

In conclusion, Kristina Radinović is a highly accomplished and innovative researcher whose work has made a significant impact in the fields of electrochemistry, materials science, and environmental sensing. Her contributions, including the development of advanced electrochemical sensors and sustainable materials for energy conversion, have earned her numerous prestigious awards, including the Serbian Chamber of Commerce Award for her exceptional doctoral dissertation. With a strong publication record in high-impact journals and a demonstrated ability to collaborate internationally, Radinović has proven herself to be a leader in her field. Her research addresses pressing global challenges, such as environmental pollution and energy efficiency, with practical applications that hold great potential for societal advancement. As she continues to build on her research skills and expand her influence within the scientific community, Radinović is well-positioned to make even more groundbreaking contributions to both scientific knowledge and real-world solutions.

Publications Top Noted✍

Title: Facile synthesis of Co/rGO, Au/rGO, and CoAu/rGO nanocomposites for precise determination of Arsenic(III) in water systems

Authors: Kristina Radinović, Jadranka Milikić, Nemanja Gavrilov, Dalibor Stanković, Aleyna Basak, Önder Metin, Biljana Šljukić

Year: 2024

Citation: Electrochimica Acta 507 (2024) 145147

 

Junnan Hao | Materials Science and Engineering | Best Researcher Award

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Dr . Junnan Hao | Materials Science and Engineering | Best Researcher Award

lecturer at The University of Adelaide , Australia

Dr. Junnan Hao is an outstanding early-career researcher in chemical engineering, specializing in aqueous battery technology with a strong focus on bridging fundamental science and industrial applications. With over 91 publications, including 30 ESI Highly Cited Papers and an H-index of 54, his work has garnered significant global recognition. He has attracted substantial research funding, including a prestigious DECRA Fellowship and AUD 680,000 in industry investment, underscoring the practical relevance of his research. Dr. Hao has also demonstrated leadership through mentoring PhD students, managing laboratories, and serving on editorial boards of leading journals. His integration of AI into materials research and innovation in battery development reflects cutting-edge contributions to sustainable energy. While future international collaborations and expanded leadership roles could further elevate his profile, his achievements to date make him highly deserving of the Best Researcher Award. His impact on both academia and industry is profound and continues to grow.


Professional Profile 

Education🎓

Dr. Junnan Hao has a strong and progressive academic background in chemical engineering and physical chemistry. He earned his Bachelor’s degree in Chemical Engineering from Zhengzhou University of Light Industry in 2013, followed by a Master’s degree in Physical Chemistry from South China Normal University in 2016. He then completed his PhD in Chemical Engineering at the University of Wollongong, Australia, in 2020, where his doctoral research focused on advanced energy storage materials. His academic journey has been marked by consistent excellence and a clear focus on developing sustainable energy technologies. Following his PhD, Dr. Hao undertook a postdoctoral fellowship at the University of Adelaide from 2020 to 2022. He is currently serving as a DECRA Fellow and Lecturer at the University of Adelaide (2022–2025), where he continues to contribute significantly to research and teaching in the field of aqueous batteries and advanced electrochemical energy systems.

Professional Experience📝

Dr. Junnan Hao has built a distinguished professional career in the field of chemical engineering, with a strong focus on energy storage technologies. After completing his PhD in 2020, he joined the University of Adelaide as a Postdoctoral Research Fellow, where he contributed to several high-impact projects in aqueous battery development. In 2022, he was awarded the prestigious Discovery Early Career Researcher Award (DECRA) by the Australian Research Council and appointed as a Lecturer and DECRA Fellow at the University of Adelaide. In this role, Dr. Hao leads cutting-edge research that integrates artificial intelligence with materials engineering to develop next-generation battery technologies. He also manages a chemical synthesis laboratory, supervises multiple PhD and postgraduate students, and actively collaborates with industry partners. His work has resulted in significant funding and commercial interest, reflecting his ability to translate research into practical solutions. Dr. Hao’s professional experience demonstrates both scientific leadership and industry relevance.

Research Interest🔎

Dr. Junnan Hao’s research interests lie at the intersection of materials science, electrochemistry, and artificial intelligence, with a primary focus on advancing aqueous battery technologies. His work aims to bridge fundamental scientific understanding with practical energy storage applications, contributing to the development of safer, cost-effective, and high-performance batteries. Dr. Hao is particularly interested in designing advanced electrodes and electrolytes through innovative approaches, including the use of machine learning to accelerate materials discovery and optimization. His research also explores the underlying electrochemical mechanisms to improve battery reversibility, stability, and energy density. Driven by the goal of enabling scalable and sustainable energy solutions, Dr. Hao collaborates closely with industry to commercialize novel battery technologies. His interdisciplinary and application-driven approach has led to numerous highly cited publications and significant research funding, underscoring the real-world impact and forward-thinking nature of his work in the clean energy and battery materials fields.

Award and Honor🏆

Dr. Junnan Hao has received numerous prestigious awards and honors that recognize his exceptional contributions to research in energy storage and materials science. Notably, he was named a Highly Cited Researcher by Clarivate in 2024 and listed among the World’s Top 0.05% Scholars by ScholarGPS, reflecting the global impact of his work. He has also been recognized as one of the Top 2% Scientists globally by Stanford University and Elsevier in both 2023 and 2024. Dr. Hao received the DECRA Fellowship from the Australian Research Council in 2023, a major national honor for early-career researchers. His other accolades include the ChemComm Emerging Investigator Award (2025), JMCA Emerging Investigator (2024), and several institutional and international awards such as the Australia China Alumni Award and AINSE Early Career Researcher Award. These recognitions highlight his leadership, innovation, and growing international reputation in sustainable energy research and academic excellence.

Research Skill🔬

Dr. Junnan Hao possesses a diverse and advanced set of research skills that underpin his success in the field of energy storage and electrochemical systems. He is highly proficient in the synthesis and characterization of battery materials, particularly for aqueous zinc-ion batteries, and has extensive experience using state-of-the-art techniques such as synchrotron-based spectroscopy, X-ray diffraction, and electron microscopy. Dr. Hao is skilled in designing and optimizing electrolytes and electrodes, and has pioneered the application of machine learning to accelerate materials discovery and performance prediction. His ability to conduct both fundamental mechanistic studies and practical device fabrication enables a seamless translation of lab innovations into scalable technologies. In addition, he has strong data analysis, scientific writing, and project management skills, demonstrated by his role in leading multidisciplinary teams, managing research laboratories, and mentoring students. Dr. Hao’s research expertise integrates materials engineering, electrochemistry, and computational tools, driving impactful innovation in battery technologies.

Conclusion💡

Dr. Junnan Hao is highly suitable for the Best Researcher Award.
His prolific, high-impact research; strategic integration of AI in materials science; substantial industrial relevance; and growing academic leadership make him a top-tier early-career researcher not only in Australia but globally. He represents the ideal combination of scholarly excellence, innovation, and real-world impact that such an award seeks to honor.

Publications Top Noted✍

Title: High-Performance Bipolar Small-Molecule Organic Cathode for Wide-Temperature-Range Aqueous Zinc-Ion Batteries
Authors: Hua K., Ma Q., Liu Y., … Zhang L., Zhang C.
Year: 2025
Citations: 0

Title: Anti-Swelling Microporous Membrane for High-Capacity and Long-Life Zn−I₂ Batteries
Authors: Chen Q., Hao J., Zhu Y., … Jaroniec M., Qiao S.Z.
Year: 2025
Citations: 18

Title: Aqueous Zinc-Bromine Battery with Highly Reversible Bromine Conversion Chemistry
Authors: Zhao X., Hao J., Chen Q., … Mao L., Qiao S.Z.
Year: 2025
Citations: 0

Title: All-Climate Energy-Dense Cascade Aqueous Zn-I₂ Batteries Enabled by a Polycationic Hydrogel Electrolyte
Authors: Liu Y., Zhang L., Liu L., … Hao J., Zhang C.
Year: 2025
Citations: 2

Title: Coordination Chemistry toward Advanced Zn-I₂ Batteries with Four-Electron I⁻/I⁰/I⁺ Conversion
Authors: Zhang S., Hao J., Wu H., … Zhao X., Qiao S.Z.
Year: 2025
Citations: 0

Title: AI-Driven Electrolyte Additive Selection to Boost Aqueous Zn-Ion Batteries Stability
Authors: Li H., Hao J., Qiao S.Z.
Year: 2024
Citations: 6

Title: The Role of Electrocatalytic Materials for Developing Post-Lithium Metal||Sulfur Batteries
Authors: Ye C., Li H., Chen Y., … Shan J., Qiao S.Z.
Year: 2024
Citations: 16

Title: Alkaline-Based Aqueous Sodium-Ion Batteries for Large-Scale Energy Storage
Authors: Wu H., Hao J., Jiang Y., … Wang C., Qiao S.Z.
Year: 2024
Citations: 65

Title: Toward High-Energy-Density Aqueous Zinc–Iodine Batteries: Multielectron Pathways
Authors: Zhang S., Hao J., Wu H., … Ye C., Qiao S.Z.
Year: 2024
Citations: Not listed

 

Chandni Bansal | Sustainable Development | Best Researcher Award

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Ms . Chandni Bansal | Sustainable Development | Best Researcher Award

Research Scholar at OP Jindal Global University Sonipat Haryana , India

The candidate is a highly dedicated researcher currently pursuing a Ph.D. in Artificial Intelligence at O.P. Jindal Global University, with specialization in AI Bias, Ethical AI, Sustainable AI, and Conversational AI. With a strong academic background and multiple top rankings in B.C.A., M.B.A., and CBSE board exams, they have consistently demonstrated academic excellence. Their professional journey spans over a decade as an IT faculty member and administrative leader, complemented by participation in numerous FDPs and AI workshops organized by premier institutions like IITs, IIMs, and NITs. They possess a strong skill set in data analytics, prompt engineering, and cybersecurity. However, the profile lacks concrete evidence of research publications, funded projects, or international collaborations, which are critical for a comprehensive research impact. Overall, the candidate shows great promise and commitment to ethical and responsible AI research, making them a strong contender for the Best Researcher Award based on potential and dedication.

Professional Profile 

Education🎓

The candidate has a strong academic foundation, currently pursuing a Ph.D. in Artificial Intelligence at O.P. Jindal Global University, Sonipat, with a research focus on AI Bias, Ethical AI, Sustainable AI, and Conversational AI. Their academic journey is marked by consistent excellence, having secured first position in both B.C.A. and M.B.A. at the university level. They were also recognized as the city topper in the CBSE 10th board exams and received a Certificate of Merit for being among the top 0.1% of successful candidates nationwide, with special excellence in Mathematics. In addition to formal education, the candidate has actively pursued professional development through various workshops and faculty development programs (FDPs) in AI, business analytics, and machine learning, offered by premier institutions such as IIM Indore, IIT Delhi, and NIT Hamirpur. This continuous learning approach reflects a strong commitment to academic growth and staying current with evolving technological trends.

Professional Experience📝

The candidate brings over a decade of rich professional experience in academia, specializing in Information Technology. Currently serving as an Assistant Professor at JK Business School, Gurgaon since April 2023, they have previously held key roles such as Controller of Examinations and University Incharge (MDU) at IBMR Business School, Gurgaon from 2019 to 2022. Their earlier experience includes teaching positions at IIeBM (Indus Business School, Pune) and Indira College of Commerce & Science, Pune. Throughout their career, they have demonstrated a strong commitment to both teaching and academic administration. Their roles have involved not only delivering IT and AI-related curricula but also managing academic processes and institutional responsibilities. This combination of teaching expertise and leadership experience highlights their ability to contribute to both academic development and institutional growth. Their professional journey is further strengthened by continuous skill enhancement in areas such as cybersecurity, analytics, ethical AI, and advanced digital tools.

Research Interest🔎

The candidate’s research interests lie at the intersection of technology and ethics, with a strong focus on Artificial Intelligence. Their primary areas of specialization include AI Bias, Ethical AI, Sustainable AI, and Conversational AI—fields that are increasingly critical in ensuring responsible and inclusive technology development. They are particularly interested in exploring how AI systems can be made fair, transparent, and aligned with human values while minimizing negative societal and environmental impacts. Their research aims to address pressing challenges related to algorithmic fairness, data ethics, and the long-term sustainability of AI solutions. By engaging in advanced workshops, FDPs, and academic symposia organized by leading institutions like IITs, IIMs, and IEEE, the candidate has continually expanded their understanding of contemporary AI issues. This commitment reflects a deep drive to contribute meaningfully to the evolution of ethical AI practices, making their research not only academically relevant but also socially impactful and future-ready.

Award and Honor🏆

The candidate has received several prestigious awards and honors that reflect their academic excellence and dedication. They were awarded the “Approved Faculty Certificate” by the University of Pune, recognizing their qualifications and teaching capabilities. Demonstrating consistent academic brilliance, they secured the first position at the university level in both B.C.A. and M.B.A. programs. Their early academic achievements include being recognized as the city topper by CBSE in the 10th board examinations and receiving a special “Certificate of Merit” for ranking among the top 0.1% of successful candidates nationwide, with a particular distinction in Mathematics. These accolades underscore the candidate’s long-standing commitment to academic excellence, discipline, and hard work. Additionally, their continued involvement in nationally recognized faculty development programs and AI workshops at reputed institutions further affirms their proactive approach to learning and professional growth. Collectively, these honors position the candidate as a high-achieving and well-recognized academic professional.

Research Skill🔬

The candidate possesses a diverse set of research skills that are crucial for conducting cutting-edge work in the field of Artificial Intelligence. Their expertise spans several areas, including AI Bias, Ethical AI, Sustainable AI, and Conversational AI. The candidate is proficient in advanced research methodologies, leveraging tools like SQL, Power BI, Tableau, and Advanced Excel for data analysis, visualization, and reporting. They also have a strong background in cybersecurity, networking, and prompt engineering, all of which are vital for addressing complex challenges in AI systems. Their research approach is highly interdisciplinary, integrating AI concepts with ethical considerations and sustainability principles. Furthermore, their participation in various faculty development programs, workshops, and symposia, such as those organized by IITs, NITs, and IEEE, demonstrates a commitment to enhancing their research capabilities and staying updated with the latest advancements in AI. This combination of technical and ethical research skills positions them well to contribute meaningfully to AI development.

Conclusion💡

The candidate demonstrates strong potential and credible eligibility for the Best Researcher Award, especially due to their alignment with pressing ethical issues in AI, consistent academic excellence, and proactive professional development. However, for a well-rounded candidacy, stronger evidence of published research, grant participation, and international collaboration would substantially enhance their profile.

Publications Top Noted✍

Title: Analysis of barriers to AI banking chatbot adoption in India: An ISM and MICMAC approach

Authors: C. Bansal, K.K. Pandey, R. Goel, A. Sharma

Year: 2024

Journal: Issues in Information Systems

Citation: This specific link or full citation appears to be unavailable as the link is disabled. However, if you require, you can search for it directly through the journal’s database or request access through academic resources like ResearchGate, Google Scholar, or the publisher’s site.

 

Muhammad Tanveer | Environmental Policy and Management | Best Researcher Award

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Dr . Muhammad Tanveer | Environmental Policy and Management | Best Researcher Award

Associate Professor at Imam Mohammad Ibn Saud Islamic University , Saudi Arabia

Dr. Muhammad Tanveer Nawaz is a distinguished academic and researcher, recognized as one of the top 2% scientists globally (Stanford Ranking). With a PhD in Management, an MBA, and a series of notable certifications, his expertise spans across research, teaching, and accreditation. He has made significant contributions at institutions like Imam Mohammad Ibn Saud Islamic University (IMSIU) and Prince Sultan University (PSU) in Saudi Arabia, leading AACSB and NCAAA accreditation projects and developing innovative academic programs. Dr. Nawaz’s research output is impressive, with over 50 papers published in high-impact journals, focusing on sustainability, green technologies, and business practices. He has received numerous awards for his research excellence, such as the Excellence in Research Award and a global publishing award. His leadership in both education and research, along with his dedication to institutional and academic growth, makes him a strong contender for the Best Researcher Award.

Professional Profile 

Education🎓

Dr. Muhammad Tanveer Nawaz has a robust academic background, marked by his continuous pursuit of excellence in the field of management and business studies. He holds a PhD in Management, which serves as the foundation of his scholarly work. His educational journey began with a Master of Business Administration (MBA), further deepening his expertise. Dr. Nawaz has also earned a series of certifications that enhance his academic credentials, reflecting his commitment to lifelong learning and professional development. His academic journey is characterized by not only advanced degrees but also a consistent focus on research and practical applications in management, sustainability, and green technologies. His qualifications have equipped him with the necessary skills to lead significant academic programs and accreditation projects. Through his education, Dr. Nawaz has developed a unique blend of academic rigor, leadership capabilities, and real-world experience, which has contributed to his success as both a scholar and an educator.

Professional Experience📝

Dr. Muhammad Tanveer Nawaz boasts extensive professional experience in academia and management, with a focus on leadership, teaching, and research. He has held key positions at leading educational institutions, demonstrating his commitment to advancing higher education and management practices. As an academic leader, Dr. Nawaz has spearheaded accreditation processes, developed curricula, and managed academic programs. His leadership extends beyond the classroom, where he mentors students and collaborates with industry experts to integrate practical insights into the educational experience. His professional experience also includes substantial involvement in research, particularly in areas like sustainability, green technologies, and business management. He has authored numerous research papers, contributing valuable knowledge to his field. Additionally, Dr. Nawaz’s consultancy work and participation in various conferences highlight his expertise in bridging the gap between theory and practice. His diverse professional background underscores his ability to excel in both academic and professional settings.

Research Interest🔎

Dr. Muhammad Tanveer Nawaz’s research interests lie at the intersection of sustainability, business management, and green technologies. He is particularly focused on exploring how businesses can integrate sustainable practices into their operations to foster long-term environmental and economic benefits. His research delves into green supply chain management, eco-innovation, and the role of corporate social responsibility (CSR) in enhancing organizational performance. Dr. Nawaz is also interested in examining the impact of emerging technologies, such as renewable energy solutions and digitalization, on business models and environmental sustainability. Furthermore, he explores the application of management principles to enhance the efficiency and effectiveness of businesses, especially in the context of sustainability challenges. His work aims to bridge the gap between theory and practice, providing actionable insights for businesses to adopt sustainable practices while maintaining profitability. Through his research, Dr. Nawaz contributes to the growing body of knowledge on sustainable business strategies.

Award and Honor🏆

Dr. Muhammad Tanveer Nawaz has received several prestigious awards and honors in recognition of his outstanding contributions to the fields of business management and sustainability. His academic excellence and commitment to advancing research have earned him numerous accolades, including top-tier research grants and recognition at international conferences. He was honored with awards for excellence in teaching and research by renowned academic institutions, acknowledging his ability to mentor students and produce impactful scholarly work. Additionally, his contributions to the field of green technologies and sustainability have been acknowledged through various professional recognitions. Dr. Nawaz’s ability to blend academic rigor with practical insights has also garnered praise from industry leaders, further cementing his reputation as an expert in sustainable business practices. These awards reflect his dedication to advancing knowledge, fostering innovation, and inspiring the next generation of scholars and practitioners in the realm of sustainability and business management.

Research Skill🔬

Dr. Muhammad Tanveer Nawaz possesses exceptional research skills, demonstrated through his extensive portfolio of over 50 peer-reviewed publications in prestigious international journals indexed in Scopus, Web of Science, and other renowned databases. His research expertise spans diverse areas such as green human resource management, sustainability, circular economy, supply chain management, environmental policy, and organizational behavior. He is skilled in both qualitative and quantitative research methodologies, statistical analysis, bibliometric analysis, and interdisciplinary collaboration. Dr. Nawaz has successfully secured research grants and has been actively involved in high-impact research projects that address real-world challenges. His ability to synthesize complex information, identify research gaps, and produce original insights reflects a deep understanding of academic rigor and scholarly communication. His collaborative work with international researchers and contributions to policy-relevant topics further enhance the practical value of his research. These attributes collectively underscore his strong capabilities and innovation in academic research.

Conclusion💡

Dr. Muhammad Tanveer Nawaz is undoubtedly a highly deserving candidate for the Best Researcher Award. His dedication to research excellence, academic development, and institutional advancement has led to significant contributions in both the academic and professional domains. His achievements, particularly in publishing cutting-edge research and playing a key role in university accreditation, underscore his qualifications for this prestigious award.

With a solid foundation in both research and educational leadership, Dr. Tanveer has demonstrated a continuous commitment to fostering academic growth and societal development through his work. While there are always opportunities for further interdisciplinary exploration and industry collaboration, his impact on academia and his recognition as a top global scientist make him an exceptional nominee for the Best Researcher Award.

Publications Top Noted✍

1.Title: Unleashing the Power of Green HR: How Embracing a Green Culture Drives Environmental Sustainability
Authors: Tanveer, M.; Din, M.U.; Khan, M.F.; Almurad, H.M.; Hasnin, E.A.
Year: 2025
Journal: Environmental and Sustainability Indicators
Citations: 0
DOI: Unavailable

2. Title: Extending Bio-Based and Biodegradable Thermoplastics in Food Packaging: A Focus on Multiphase Systems
Authors: Almas, A.; Talha, M.; Maan, A.A.; Butt, M.S.; Nazir, A.
Year: 2025
Journal: Environmental and Sustainability Indicators
Citations: 0
DOI: Unavailable

3. Title: Do Innovation and Renewable Energy Transition Play Their Role in Environmental Sustainability in Western Europe?
Authors: Mahmood, H.; Irshad, A.U.R.; Tanveer, M.
Year: 2024
Journal: Humanities and Social Sciences Communications
Citations: 18
DOI: Unavailable

4. Title: A Thorough Overview of the Literature on Waste Recycling in the Circular Economy: Current Practices and Future Perspectives
Authors: Tabish, M.; Khan, S.A.R.; Zhang, Y.; Tanveer, M.
Year: 2025
Journal: Environmental and Sustainability Indicators
Citations: 2
DOI: Unavailable

5. Title: Valorization of Poultry Slaughter Wastes via Extraction of Three Structural Proteins (Gelatin, Collagen, and Keratin): A Sustainable Approach for Circular Economy
Authors: Talha, M.; Tanveer, M.; Abid, A.; Mustafa, A.; Tanveer, N.; Nazir, A.
Year: 2025
Journal: Environmental and Sustainability Indicators
Citations: 3
DOI: Unavailable

6. Title: Cracking the Code: The Influence of Personality Traits on Knowledge Management Culture and Sharing Behavior
Authors: Tanveer, M.
Year: 2024
Journal: Uncertain Supply Chain Management
Citations: 0
DOI: Unavailable

7. Title: Examining the Role of Women’s Labor Participation in CO₂ Emissions in Saudi Arabia
Authors: Mahmood, H.; Tanveer, M.
Year: 2024
Journal: International Journal of Energy Economics and Policy
Citations: 1
DOI: 10.32479/ijeep.15740EconJournals

8. Title: Autophagy-Related Genes Mediated Mitophagy in Yeast, Mammals, and Higher Plants
Authors: Riaz, M.A.; Sultana, R.; Ahmad, J.; Zulkiffal, M.; Sarwar, M.K.S.; Tanveer, M.
Year: 2024
Journal: Cellular and Molecular Biology
Citations: 4
DOI: 10.14715/cmb/2024.70.1.1Cellular and Molecular Biology

9. Title: Impact of Energy Intensity, R&D, Trade Openness, and Financial Market Development on Carbon Productivity in MENA: A Spatial Analysis
Authors: Mahmood, H.; Irshad, A.U.R.; Tanveer, M.
Year: 2024
Journal: International Journal of Energy Research
Citations: 1
DOI: UnavailableIFIS Collections+2EnPress Journals+2EnPress Journals+2

10. Title: Impact of Client Relationship on Project Delay: Moderating Role of Project Governance
Authors: Ayaz, I.; Khan, M.F.; Tanveer, M.; Mrabet, M.; Gillani, S.H.M.
Year: 2024
Journal: Journal of Infrastructure, Policy and Development
Citations: 0
DOI: 10.24294/jipd.v8i10.6397ResearchGate+1EnPress Journals+1

 

Vasanthi P | Structural Engineering | Best Researcher Award

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Dr . Vasanthi P | Structural Engineering | Best Researcher Award

Associate Professor at Chennai Institute of Technology , India

Dr. P. Vasanthi, with a Ph.D. in Composite Structures and over 18 years of combined academic and industry experience, is a highly accomplished researcher in Civil Engineering. She has published 26 journal papers, including in Web of Science and Scopus-indexed journals, presented at international conferences, and holds a patent on enhancing recycled aggregate concrete. Her work spans sustainable construction materials, nano-technology applications, and the integration of machine learning in structural analysis. Dr. Vasanthi actively contributes to academic development through workshops, FDPs, and student mentoring. She holds certifications from NPTEL and Coursera, demonstrating a commitment to continuous learning. Her leadership roles in organizing academic events and serving on technical committees further reflect her dedication. While international collaborations and research funding could enhance her profile, her contributions thus far are significant. Dr. Vasanthi is a strong candidate for the Best Researcher Award, recognized for her innovation, academic rigor, and impact on civil engineering research.

Professional Profile 

Education🎓

Dr. P. Vasanthi holds a strong academic background in Civil Engineering, beginning with a Bachelor of Engineering (B.E.) in Civil Engineering from the Institute of Road Transport and Technology, affiliated with Bharathiar University, graduating with First Class in 2001. She pursued her Master of Engineering (M.E.) in Structural Engineering from Sathyabama University, where she graduated with First Class with Distinction in 2010, achieving a CGPA of 8.13. Further advancing her academic qualifications, she earned her Doctorate (Ph.D.) in Composite Structures from Sathyabama University in August 2021. Her educational journey reflects a consistent commitment to academic excellence and specialization in structural and composite materials. Dr. Vasanthi has further enriched her knowledge through multiple certification programs from NPTEL and Coursera in areas such as structural design, geotechnical engineering, stress management, and sustainable transportation systems. Her robust educational foundation has been pivotal in shaping her research and teaching expertise in the field of civil engineering.

Professional Experience📝

Dr. P. Vasanthi possesses a well-rounded professional background with 14 years of teaching experience and 4 years of industry experience in Civil Engineering. She began her academic career as a Lecturer at Annai JKK Sampoorani Ammal Polytechnic College and Pallavan Engineering College, gradually advancing to Assistant Professor roles at SRM Institute of Science & Technology, Sathyabama Institute of Science and Technology, and currently serves at Chennai Institute of Technology. She has also held the position of Associate Professor at Adhi College of Engineering and Technology. Her academic roles have included teaching, mentoring, coordinating student projects, organizing academic events, and setting university question papers. Prior to her academic career, she worked as a Site Engineer with Classic Builders for four years, gaining valuable hands-on experience in construction practices and site management. This combination of academic and industry experience enriches her teaching and research with practical insight, making her a well-rounded and impactful educator and researcher.

Research Interest🔎

Dr. P. Vasanthi’s research interests lie primarily in the areas of advanced construction materials, sustainable engineering, and structural analysis. She focuses extensively on concrete and construction materials, particularly the use of nano materials, recycled aggregates, and industrial waste in concrete to enhance its mechanical and durability properties. Her expertise extends to steel and composite structures, with a strong emphasis on innovative material applications in structural systems such as Concrete-Filled Steel Tube (CFST) columns. She is also deeply involved in interdisciplinary research, integrating modern technologies like machine learning, IoT, and data analytics into civil engineering applications, including structural health monitoring and predictive modeling. Her work aims to address key challenges in construction sustainability, performance optimization, and cost-effectiveness. With a growing body of publications and a patent to her name, Dr. Vasanthi’s research continues to contribute meaningful advancements in the field of civil engineering, with practical relevance and academic depth.

Award and Honor🏆

Dr. P. Vasanthi has received several recognitions and honors that reflect her dedication and contributions to the field of civil engineering. She has been awarded a Certificate of Recognition for her role as a reviewer at the Indian Structural Steel Conference held at IIT Hyderabad, highlighting her expertise in structural engineering. Additionally, she served as a Technical Review Committee Member for the National Conference on Sustainable Materials and Smart Practices (NCSMSP-2021) at Bannari Amman Institute of Technology. These accolades showcase her academic credibility and involvement in advancing research quality. She is also a Life Member of prestigious professional bodies such as the American Society of Civil Engineers (ASCE) and the National Information Centre of Earthquake Engineering (NICEE). Her active participation in technical conferences and her commitment to research excellence underline her suitability for further professional recognition, including awards such as the Best Researcher Award in the domain of civil engineering.

Research Skill🔬

Dr. P. Vasanthi possesses a diverse and well-developed set of research skills that span experimental analysis, material innovation, data interpretation, and interdisciplinary application. Her core strengths lie in designing and executing experimental studies on advanced construction materials, such as nano-modified concrete, composite structures, and recycled aggregates. She is proficient in applying statistical tools like Taguchi-Grey Relational Analysis and Response Surface Methodology for optimization studies. Additionally, her skills extend to the use of software tools like AutoCAD, STAAD Pro, and ANSYS, which support her structural modeling and simulation work. Dr. Vasanthi is also skilled in integrating machine learning and IoT-based technologies into civil engineering applications, such as crack detection and strength prediction. Her ability to publish in reputed journals and present in international conferences reflects strong academic writing, data visualization, and critical analysis abilities. Overall, her comprehensive research skill set enables her to contribute meaningfully to innovative, sustainable, and practical engineering solutions.

Conclusion💡

Dr. P. Vasanthi is a highly committed, multi-faceted academic and researcher who exhibits substantial promise and performance in civil engineering research, particularly in sustainability, structural innovation, and interdisciplinary approaches. Her diverse output, industry-aligned experience, and research contributions make her well-qualified and suitable for the Best Researcher Award.

Publications Top Noted✍

  • Publication Title: Sawdust as a sustainable additive: Comparative insights into its role in concrete and brick applications

    • Authors: P. Vasanthi, B. Prabhu, B. Priyanka Murugesan

    • Year: Not provided

    • Citations: 0

  • Publication Title: Investigation of mechanical and dynamic mechanical analysis of bamboo/olive tree leaves powder-based hybrid composites under cryogenic conditions

    • Authors: V. Ganesan Velmurugan, L. Natrayan Lakshmaiya, J.S. Singh Chohan Jasgurpreet Singh, S.S. Kaliappan, D. Arunkumar

    • Year: 2024

    • Citations: 28

  • Publication Title: Air Quality Monitoring on Congested Roads Using Smart Sensor Technology

    • Authors: P. Partheeban Pachaivannan, P. Vasanthi, M. Priyanka Murugesan, B. Madhuja, B. Vijaya

    • Year: Not provided

    • Citations: 0

 

Md Kazi Hafizur Rahman | Technology | Excellence in Research

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Mr. Md Kazi Hafizur Rahman | Technology | Excellence in Research

Lecturer at Department of Business Administration University of Global Village (UGV),  Bangladesh

Md. Kazi Hafizur Rahman exemplifies a research-driven academic with remarkable productivity in a short span, especially notable for his age and early career stage. His interdisciplinary contributions to AI, sustainability, HRM, and youth development set him apart as a rising research leader. His ability to translate complex research into social impact, along with leadership in academic and non-academic roles, makes him highly

AUTHOR PROFILE
🎓 Education

Md. Kazi Hafizur Rahman holds a Master of Business Administration (MBA) in Human Resource Management from the Department of Management Studies at the University of Barishal, graduating in 2024 with a stellar CGPA of 3.96 out of 4.00. His thesis explored the integration of Artificial Intelligence in HRM, focusing on its impact on efficiency, inclusivity, and sustainable competitive advantage. He completed his Bachelor of Business Administration (BBA) in the same department with a CGPA of 3.72 in 2023. Earlier academic milestones include a Higher Secondary Certificate (HSC) from Govt. Sayed Hatem Ali College, Barishal in 2017 (GPA: 4.67) and a Secondary School Certificate (SSC) from Collegiate High School, Barishal in 2015 (GPA: 4.72).

👩‍🏫 Teaching Experience

Currently serving as a Lecturer in the Department of Business Administration at the University of Global Village (UGV), Barishal since October 2024, Kazi Hafizur Rahman combines academic rigor with impactful community engagement. As an Independent Researcher, he has authored numerous scholarly articles published in top-tier journals indexed in WoS, Scopus, and ABDC, while also serving as a reviewer for IEEE Access and similar outlets. He has contributed to multiple UGC-funded research projects as a Research Assistant, focusing on tourism development and climate change impact on coastal economies. From 2018 to 2024, he was affiliated with the Daily Dokhiner Somoy, progressing from Campus Correspondent to News Editor, while also managing editorial content for the education-focused page “Somoyer Sikkha.” In addition, he has facilitated leadership and civic training programs with the British Council, The Hunger Project, and others, and led social action projects with international recognition, including an award-winning initiative at COP-26.

🛰️ Research Focus

His research interests center on Artificial Intelligence integration in management, green innovation, corporate sustainability, entrepreneurship, and digital transformation. He has co-authored over 10 peer-reviewed articles published in highly ranked journals such as Business Strategy and the Environment, Environment, Development and Sustainability, and Sustainability, with topics covering STARA capabilities, GHRM, circular economy, and the impact of AI and digital tools on performance and learning outcomes. His work is often cross-disciplinary, blending insights from human resources, environmental studies, and technology management.

🛠️ Skills

Kazi Hafizur Rahman demonstrates exceptional technological proficiency in tools such as SPSS, AMOS, SMART PLS, and MS Office Suite, with advanced capabilities in both Bengali and English typing. His interpersonal competencies include a proactive mindset, strong work ethic, and relationship-building skills, complemented by excellent communication abilities in public speaking, anchoring, news presenting, and content writing. Furthermore, he excels in delivering virtual training and adapting to emerging technologies quickly and effectively.

🏆 Awards and Honors

Kazi Hafizur Rahman was a Co-Principal Investigator for a research project titled Leveraging AI to Attain Sustainable Performance through Knowledge Management and Innovation”, which was granted BDT 5,00,000 by Ahsanullah University of Science and Technology (AUST) under the AIRG program in 2025. He co-led the COP-26-recognized social action project on sustainable urban environmental management. His leadership roles include serving as President of the Management Studies Association (2021-2022), General Secretary of Barishal University Press Club (2022-2024), and multiple key positions in student and social organizations such as CRC Foundation, SERAC Bangladesh, and Bangladesh Human Rights Commission, Barishal Unit.

📚Publication 

Title: Mediating role of entrepreneurial intention on the relationship between entrepreneurship education and employability: a study on university students from a developing country
Authors: MAI Gazi, MKH Rahman, MF Yusof, AA Masud, MA Islam, ARS Senathirajah, MA Hossain
Source: Cogent Business & Management, 11(1), 2294514
Year: 2024
Citations: 37

Title: AI capability and sustainable performance: unveiling the mediating effects of organizational creativity and green innovation with knowledge sharing culture as a moderator
Authors: MAI Gazi, MKH Rahman, AA Masud, MB Amin, NS Chaity, ARS Senathirajah, M Abdullah
Source: Sustainability, 16(17), 7466
Year: 2024
Citations: 17

Title: Fostering sustainability through technological brilliance: a study on the nexus of organizational STARA capability, GHRM, GSCM, and sustainable performance
Authors: AA Masud, MT Islam, MKH Rahman, MH Or Rosid, MJ Rahman, T Akter, K Szabó
Source: Discover Sustainability, 5(1), 325
Year: 2024
Citations: 10

Title: Adaptability and resilience: Insights into Bangladeshi E-commerce customer behavior during COVID-19
Authors: MAI Gazi, AA Masud, MKH Rahman, MR Islam, A Senathirajah
Source: Environment and Social Psychology, 9(7), 2626
Year: 2024
Citations: 7

Title: Impact of green banking practices on green CSR and sustainability in private commercial banks: the mediating role of green financing activities
Authors: MAI Gazi, A Al Masud, S bin Kabir, NS Chaity, AR bin S Senathirajah, MKH Rahman
Source: Journal of Sustainability Research, 6(4)
Year: 2024
Citations: 5

Title: AI capability and sustainable performance: unveiling the mediating effects of organizational creativity and green innovation with knowledge sharing culture as a moderator
Authors: MAI Gazi, MKH Rahman, AA Masud, MB Amin, NS Chaity, A Senathirajah, M Abdullah
Source: Sustainability, 16(17), 7466
Year: 2024
Citations: 5

Title: Paving the way of entrepreneurship for university students: the role of innovativeness, technological adaptability, and self-management, with risk-taking and family support as moderators
Authors: MAI Gazi, AT Mim, AA Masud, MKH Rahman, MB Amin, ARS Senathirajah
Source: Cogent Education, 12(1), 2455230
Year: 2025
Citations: 4

Title: Sustainable embankment contribute to a sustainable economy: The impact of climate change on the economic disaster in coastal area
Authors: MAI Gazi, A Al Masud, MKH Rahman, MB Amin, M Emon
Source: Environmental Development, 55, 101208
Year: 2025

🏁conclusion

Md. Kazi Hafizur Rahman is an ideal candidate for the Research for Excellence in Research Award. His scholarly rigor, publication quality, project leadership, and community engagement are all aligned with the core criteria of the award. With continuous growth in collaboration, applied research, and citation impact, he is poised to become a future academic thought leader in sustainability and technological innovation.