Chao Wang | Biomass Material | Young Researcher Award

Published On 01/04/202501/04/2025 by ScienceFather

Chao Wang | Biomass Material | Young Researcher Award

Dr. Chao Wang , Harbin Engineering university, Yantai Research Institute , China.

Chao Wang 🎓🔬 is an Associate Professor at Harbin Engineering University, specializing in polymer membranes for water treatment and biomass material applications. She earned her Ph.D. in Chemical Engineering and Technology (2021) and a Master’s in Polymer Chemistry and Physics (2016) from Harbin Institute of Technology, following a Bachelor’s in Material Chemistry from Northeast Forestry University. Her research focuses on developing natural-product-derived membranes for molecular separation and wastewater treatment. As the leader of multiple funded projects, she has published high-impact SCI papers in top journals. 📚🌱 Her work contributes to sustainable and efficient membrane technologies. 🌍💧

Publication Profile

Scopus

Orcid

Education & Work Experience 📚💼

2016.09 – 2021.09 | Ph.D. in Chemical Engineering & Technology, Harbin Institute of Technology 🎓
2015.09 – 2016.09 | Master’s in Polymer Chemistry & Physics, Harbin Institute of Technology 🧪
2011 – 2015 | Bachelor’s in Material Chemistry, Northeast Forestry University 🏛️
2021.11 – Present | Associate Professor, Harbin Engineering University 👩‍🏫

Suitability Summary

Dr. Chao Wang is an outstanding young researcher in the field of polymer chemistry and membrane technology, making significant contributions to sustainable water treatment and advanced membrane materials. Her research focuses on developing biomass-derived membranes, antibacterial thin films, and high-efficiency dye removal membranes, which have broad applications in environmental protection and industrial water purification. With an impressive portfolio of high-impact SCI publications, leadership in multiple research projects, and groundbreaking advancements in polymer-based separation technologies, Dr. Wang exemplifies the qualities of an innovative and influential scientist, making her a deserving candidate for the Young Researcher Award.

Professional Development 📈🔬

Chao Wang is deeply engaged in polymer chemistry and membrane technology research. Her work focuses on polymer membranes for efficient water treatment, incorporating natural biomaterials for enhanced separation performance. 🌱💧 She leads multiple funded projects, including the Shandong Provincial Natural Science Foundation and Yantai Science & Technology Innovation programs. As a prolific researcher, she has published in high-impact journals like Chemical Engineering Journal and Journal of Membrane Science. 📄✨ Her contributions advance sustainable membrane technologies, offering innovative solutions for environmental challenges. 🌍🔍

Research Focus 🏗️🔬

Chao Wang’s research primarily revolves around polymer membranes for water treatment, molecular separation, and biomass material applications. 🌿💧 Her work aims to develop next-generation membranes with enhanced selectivity and efficiency, utilizing bio-based components for sustainable solutions. She explores lignin-based membranes, nanochannel structures, and surface modifications to improve filtration performance. 🏭🔍 Her studies contribute to industries requiring high-performance membranes, such as wastewater treatment, dye removal, and chemical separation. 🚰🔬 Through innovative polymer engineering, she advances eco-friendly and cost-effective filtration technologies for global water sustainability. 🌎♻️

Awards & Honors 🏆🎖️

Project Leader | Youth Fund Project of Shandong Provincial Natural Science Foundation 🎓
Project Leader | Fundamental Research Projects of Science & Technology Innovation and Development Plan in Yantai 🏛️
Project Leader | Yantai Science and Technology Innovation Assistance for New Kinetic Energy Open Research Topics 🏆
Published in Top SCI Journals | Chemical Engineering Journal, Journal of Membrane Science, Polymer 📄🔥

Publication Top Notes

1️⃣ Wang, C., Lu, Y., Chu, P., He, T., Liu, L., & Zhang, C. (2025). Design of intrinsically antibacterial thin film composite membrane based on natural material for efficient molecular sieving. Separation and Purification Technology, 355:129798. (Cited by: 1) 📄🔬

2️⃣ Wang, C., Chen, R., Liu, W., Li, Y., & Wang, J. (2025). Electron-Withdrawing Effects for Tailoring Oxidative-Stress-Mediated Coating in Marine Antifouling. ACS Applied Materials and Interfaces. (Cited by: -) 🌊🦠

3️⃣ Wang, C., Zhang, W., Zhang, C., Xu, H., Liu, L., & Zhang, C. (2022). Natural-product-derived membranes for high-efficiency anionic dye removal. Journal of Membrane Science, 663:121061. (Cited by: -) 🌱💧

4️⃣ Wang, C., Zhang, J., Liu, C., Song, X., & Zhang, C. (2021). Wood-inspired preparation of ligninsulfonate/trimesoylchloride nanofilm with a highly negatively charged surface for removing anionic dyes. Chemical Engineering Journal, 412:128609. (Cited by: -) 🌳🧪

5️⃣ Wang, C., Zhang, J., Liu, C., Song, X., & Zhang, C. (2021). Ligninsulfonate/trimesoylchloride nanocomposite membrane with transmembrane nanochannels via bionic cell membrane for molecular separation. Journal of Membrane Science, 628:119741. (Cited by: -) 🏗️🧫

6️⃣ Wang, C., Song, X., Liu, Y., & Zhang, C. (2021). PVC-g-PVP amphiphilic polymer synthesis by ATRP and its membrane separation property for silicone-containing wastewater. Polymer, 229:123965. (Cited by: -) 🏭💡

Liyun Li | Seismic Analysis | Best Researcher Award

Published On 08/03/202508/03/2025 by ScienceFather

Liyun Li | Seismic Analysis | Best Researcher Award

Prof. Liyun Li, Beijing University of Technology, China.

Professor Liyun Li is a distinguished scholar in Civil Engineering at Beijing University of Technology (BJUT), specializing in seismic analysis, underground construction, and geotechnical engineering. With a Ph.D. from Beijing University of Technology, he has contributed significantly to soil-structure interaction and slope protection. His expertise spans over 25 years, including research visits to the University of Pittsburgh, USA. As a member of SSC, ISSMGE, and CISMGE, he actively advances geotechnical engineering. His research has greatly impacted earthquake resilience and underground infrastructure, making him a leading figure in structural and geotechnical studies. 🌍🔬

Publication Profile

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Education & Experience

📚 Education:
✔ 2003–2007: Ph.D. in Civil Engineering, Beijing University of Technology
✔ 2001–2003: M.Sc., Institute of Engineering Mechanics, China Earthquake Administration
✔ 1992–1996: B.Sc., East China Institute of Technology

🔬 Professional Experience:
✔ 2021–Present: Professor, College of Architecture & Civil Engineering, BJUT
✔ 2013–2014: Visiting Scholar, University of Pittsburgh, USA
✔ 2007–2021: Associate Professor, College of Architecture & Civil Engineering, BJUT
✔ 1996–2001: Assistant Professor, Dept. of Geo-science, East China Institute of Technology

Suitability Summary

Professor LI Liyun, a distinguished expert in Civil Engineering, is a highly deserving recipient of the Best Researcher Award for his outstanding contributions to seismic analysis, underground engineering, and geotechnical research. As a Professor at Beijing University of Technology, his work has significantly advanced the understanding of soil-structure interaction, underground construction, and slope protection techniques. With a strong academic foundation and over two decades of research experience, Professor Li’s studies have provided critical insights into seismic safety, structural resilience, and ecological reconstruction, directly benefiting both academia and industry.

Professional Development

Professor Liyun Li is an esteemed expert in civil and geotechnical engineering, with a career dedicated to earthquake-resistant underground structures. His research focuses on seismic resilience, soil-structure interaction, and slope protection, contributing to safer and more sustainable infrastructure. As a visiting scholar at the University of Pittsburgh, he collaborated on advanced geotechnical modeling. His 25+ years of teaching and research have influenced numerous engineering projects in China and beyond. His active participation in international engineering societies ensures that his work aligns with global advancements in geotechnical engineering and underground construction. 🏗️🔬🌍

Research Focus

Professor Liyun Li specializes in seismic analysis of underground structures, ensuring that critical infrastructure can withstand earthquakes and natural disasters. His work explores soil-structure interaction, essential for designing resilient tunnels, foundations, and underground facilities. He is also deeply involved in slope protection and ecological reconstruction, integrating sustainability into geotechnical solutions. His research supports urban development, disaster mitigation, and infrastructure resilience, making significant contributions to civil and earthquake engineering. Through international collaborations, he advances new construction methodologies that enhance structural safety and environmental sustainability. 🌍🏢🌱

Awards & Honors 🏆

✔ Recognized Expert in Seismic & Underground Engineering 🏗️
✔ Visiting Scholar at University of Pittsburgh, USA 🌍
✔ Key Contributor to China’s National Geotechnical Projects 🏢
✔ Active Member of SSC, ISSMGE & CISMGE 🏅
✔ Multiple Teaching & Research Excellence Awards at BJUT 📚

Publication Top Notes

Investigation on Response of Site of Typical Soil–Rock Composite Strata in Changchun Induced by Shield Construction of Parallel Twin Tunnels, Applied Sciences, 2024.

A Data-Driven Indirect Approach for Predicting the Response of Existing Structures Induced by Adjacent Excavation, Applied Sciences, 2023.

Landolf Rhode-Barbarigos | Structural engineering | Best Researcher Award

Published On 25/02/202525/02/2025 by ScienceFather

Landolf Rhode-Barbarigos | Structural engineering | Best Researcher Award

Dr.Landolf Rhode-Barbarigos , University of Miami , United States.

Dr. Landolf Rhode-Barbarigos is an Associate Professor at the University of Miami’s College of Engineering, with secondary appointments at the UM School of Architecture and the Rosenstiel School of Marine, Atmospheric, and Earth Science. His research focuses on coastal resilience, green/gray infrastructure, tensegrity structures, and structural optimization. He earned his B.Sc., M.Sc., and Ph.D. in Civil Engineering from EPFL, Switzerland. Before joining UM, he was a Postdoctoral Research Associate at Princeton University. His work is supported by prestigious grants from NSF, DARPA, and DoD, advancing innovative solutions in structural engineering and sustainable design.

Publication Profile

Orcid

Scopus

Google Scholar

Education & Experience

Education:
Ph.D. in Structural Engineering – EPFL, Switzerland (2008-2012)
M.Sc. in Civil Engineering – EPFL, Switzerland (2006-2008)
B.Sc. in Civil Engineering – EPFL, Switzerland (2002-2006)

Experience:
Associate Professor – University of Miami (2023–present)
Assistant Professor – University of Miami (2015–2023)
Postdoctoral Research Associate – Princeton University, Form-Finding Lab (2012–2014)
Doctoral Assistant – EPFL, Applied Computing and Mechanics Laboratory (2008–2012)

Suitability Summary

Dr. Landolf Rhode-Barbarigos has been honored with the Best Researcher Award for his groundbreaking contributions to structural engineering, coastal resilience, and sustainable infrastructure. His interdisciplinary research, spanning civil engineering, architecture, and marine sciences, has significantly advanced the field of green-gray infrastructure, tensegrity structures, and computational structural design.

Professional Development

Dr. Landolf Rhode-Barbarigos has played a key role in advancing sustainable engineering solutions through research and innovation. His expertise spans coastal resilience, structural optimization, and form-finding techniques, contributing to groundbreaking studies in tensegrity structures and green-gray infrastructure. With extensive experience in academia and research, he has secured multi-million-dollar grants from agencies like NSF and DARPA. His interdisciplinary collaborations with architecture, marine sciences, and engineering have led to scalable solutions for sustainable coastal protection. As an educator, he mentors students in computational structural design, inspiring future engineers to push the boundaries of sustainable construction. .

Research Focus

Dr. Landolf Rhode-Barbarigos research lies at the intersection of structural engineering, computational design, and sustainability. His work emphasizes coastal resilience, utilizing green-gray infrastructure to mitigate climate change effects. He pioneers tensegrity structures, optimizing form-finding techniques for architectural and space applications. His expertise extends to 3D printing of concrete materials, enhancing sustainable coastal protection systems. Through computational modeling and structural optimization, he develops efficient and adaptive construction methods. His projects, funded by NSF, DARPA, and DoD, aim to revolutionize resilient infrastructure for future generations.

Awards & Honors

NSF CAREER Award – Static, Dynamic & Kinematic Analysis of Tensegrity Structures (2023)
DARPA X-REEFS Project Grant – Reef Engineering for Future Structures (2022)
DoD SBIR Phase II Grant – Sustainable 3D Printing for Coastal Protection (2024)
Outstanding Research Award – University of Miami (Multiple Years)
Best Paper Awards – Recognized in international structural engineering conferences

Publication Top notes

Literature review on modeling and simulation of energy infrastructures from a resilience perspective – Cited by 142, Published in 2019

Design aspects of a deployable tensegrity-hollow-rope footbridge – Cited by 67, Published in 2012

Mechanism-based approach for the deployment of a tensegrity-ring module – Cited by 61, Published in 2012

Dialectic form finding of passive and adaptive shading enclosures – Cited by 48, Published in 2014

Design of tensegrity structures using parametric analysis and stochastic search – Cited by 40, Published in 2010

Overview of damage observed in regional construction during the passage of Hurricane Irma over the State of Florida – Published in Forensic Engineering Congress, 2018

Abhik Sur | Composite Structures | Best Researcher Award

Published On 15/02/202515/02/2025 by ScienceFather

Abhik Sur | Composite Structures | Best Researcher Award

Dr. Abhik Sur, Sister Nivedita University, India.

Dr. Abhik Sur is an esteemed mathematician specializing in thermoelasticity and solid mechanics. He earned his Ph.D. in Applied Mathematics from the University of Calcutta in 2016 and is currently an Associate Professor at Sister Nivedita University, Kolkata. With a strong research background in heat and mass transfer, composite structures, and anisotropic materials, Dr. Sur has made significant contributions to mathematical modeling and computational mechanics. His expertise extends to programming languages such as MATLAB and FORTRAN, enhancing his analytical capabilities. Passionate about research and academia, he has published extensively and actively participates in professional development programs.

Publication Profiles

Orcid

Scopus

Googlescholar

Education & Experience

Ph.D. in Applied Mathematics – University of Calcutta (2016)
M.Sc. in Applied Mathematics – University of Calcutta (2010) (Rank: 1st Class 3rd)
B.Sc. in Mathematics (Hons.) – Bidhannagar Govt. College, University of Calcutta (2008) (Rank: 1st)
Diploma in Vocal Classical Music – Prachin Kala Kendra, Chandigarh University (2005)

Teaching Experience:
Associate Professor & Head, Dept. of Mathematics, Sister Nivedita University (Aug 2024 – Present)
Assistant Professor (Grade III), Sister Nivedita University (Apr 2022 – Jul 2024)
Assistant Professor, Sister Nivedita University (Aug 2019 – Apr 2022)
Assistant Professor, Techno Main Salt Lake (Jul 2011 – Aug 2019)
Assistant Professor, Vidyasagar College, University of Calcutta (Sep 2010 – Jul 2011)

Summary Suitability

Dr. Abhik Sur is a distinguished scholar and a deserving recipient of the Best Researcher Award for his outstanding contributions to the fields of thermoelasticity, solid mechanics, and applied mathematics. His extensive research has significantly advanced the understanding of heat and mass transfer, fractional heat conduction, micropolar thermoelasticity, and composite materials. With a career spanning over a decade, Dr. Sur has made pioneering contributions that have had a profound impact on both theoretical and computational aspects of mathematical modeling in engineering and applied sciences.

Professional Development

Dr. Abhik Sur has actively engaged in academic and professional growth, consistently contributing to mathematics research and education. He has attended multiple national and international conferences, including presenting research at the prestigious 100th Indian Science Congress (2013). He specializes in computational techniques, leveraging software such as MATLAB, MATHEMATICA, and MAPLE for advanced modeling. Additionally, he has supervised research projects on generalized thermoelasticity and fractional heat conduction, enhancing the understanding of solid mechanics. With his ongoing D.Sc. research, he continues to advance his expertise, integrating mathematical theories with real-world engineering applications.

Research Focus

Dr. Abhik Sur’s research centers on generalized thermoelasticity, heat and mass transfer, solid mechanics, and functionally graded materials. His expertise includes micropolar thermoelasticity, thermo-viscoelasticity, magneto-thermoelasticity, diffusion problems, composite structures, and fiber-reinforced materials. He employs computational methods for solving complex engineering problems, particularly in fractional heat conduction and crack propagation in anisotropic materials. His research significantly impacts structural analysis, material science, and applied mathematics, contributing to the development of efficient mathematical models for real-world mechanical and thermal applications. His work bridges theoretical mathematics and applied engineering, offering innovative solutions in the field of solid and fluid mechanics.

Awards & Honors 🏆🎖

Arati Mukherjee Award for securing the highest marks in B.Sc. Mathematics (Hons.) at Bidhannagar College.
Young Scientist Presentation at the 100th Indian Science Congress (2013) for research on thermal wave propagation.
Secured 1st Rank in B.Sc. Mathematics (Hons.), University of Calcutta.
Secured 1st Class 3rd Rank in M.Sc. Applied Mathematics, University of Calcutta.
Awarded First Division with Distinction in Vocal Classical Music Diploma (2005).

Publications Top Noted

Photo-thermo-elastic wave propagation in an orthotropic semiconductor with a spherical cavity and memory responses – Waves in Random and Complex Media 31 (6), 1835-1858, 119 citations, 2021
Fractional order two-temperature thermoelasticity with finite wave speed – Acta Mechanica 223 (12), 2685-2701, 79 citations, 2012
Modeling of memory-dependent derivative in a fibre-reinforced plate – Thin-Walled Structures 126, 85-93, 66 citations, 2018
Thermoelastic interaction in a viscoelastic functionally graded half-space under three-phase-lag model – European Journal of Computational Mechanics 23 (5-6), 179-198, 56 citations, 2014
Transient response in a piezoelastic medium due to the influence of magnetic field with memory-dependent derivative – Acta Mechanica 230 (7), 2325-2338, 53 citations, 2019
Non-local memory-dependent heat conduction in a magneto-thermoelastic problem – Waves in Random and Complex Media 32 (1), 251-271, 52 citations, 2022
Finite element analysis in a fiber-reinforced cylinder due to memory-dependent heat transfer – Acta Mechanica 230, 1607-1624, 52 citations, 2019
Fractional order generalized thermoelastic functionally graded solid with variable material properties – Journal of Solid Mechanics 6 (1), 54-69, 50 citations, 2014

Bin Huang | Design of Materials and Components | Best Researcher Award

Published On 27/01/202527/01/2025 by ScienceFather

Assist. Prof. Dr. Bin Huang | Design of Materials and Components | Best Researcher Award

JiangXi University of Science and Technology, China

Dr. Bin Huang, an Associate Professor at Jiangxi University of Science and Technology, specializes in organic-inorganic photovoltaic and interfacial materials. Born in September 1991, he earned his Ph.D. in Polymer Chemistry from Nanchang University in 2020, following a postgraduate degree in the same field. Dr. Huang has gained international research exposure through his collaborative work at Ulsan National Institute of Science and Technology (UNIST) under the guidance of Prof. Changduk Yang. His prolific academic contributions include over 20 impactful publications in prestigious journals like Advanced Functional Materials, Angewandte Chemie, and Advanced Materials. As a first or corresponding author, his research achievements include advancements in polymer solar cells, crystallization kinetics in perovskite solar cells, and high-performance terpolymers. Dr. Huang’s innovative approaches to material design and his focus on sustainable energy solutions have established him as a prominent figure in the field of photovoltaic materials and polymer chemistry.

Professional Profie

ORCID Profile

Education

Dr. Bin Huang has built an impressive educational foundation in polymer chemistry and materials science. He earned his Ph.D. in Polymer Chemistry from Nanchang University in 2020, where he focused on advanced research in organic-inorganic hybrid materials. Prior to his doctoral studies, Dr. Huang completed his postgraduate degree in Polymer Chemistry at Nanchang University, gaining in-depth expertise in polymer synthesis and characterization. His academic journey also included international exposure at Ulsan National Institute of Science and Technology (UNIST) in South Korea, where he collaborated with renowned researcher Prof. Changduk Yang on cutting-edge projects in photovoltaic materials. Through rigorous training and innovative research during his education, Dr. Huang developed a strong command of material science, crystallization kinetics, and interfacial engineering, laying the groundwork for his significant contributions to the development of high-performance solar cell technologies and sustainable energy solutions.

Professional Experience

Dr. Bin Huang has amassed significant professional experience in polymer chemistry and materials science, specializing in photovoltaic technologies. Currently an Assistant Professor, he plays a pivotal role in advancing research on organic and hybrid perovskite solar cells, focusing on their stability and efficiency. Before his academic appointment, Dr. Huang collaborated with Prof. Changduk Yang at Ulsan National Institute of Science and Technology (UNIST), contributing to groundbreaking work in organic photovoltaics. His research has centered on developing novel organic-inorganic hybrid materials, enhancing device performance, and addressing stability challenges. With expertise in material crystallization, interfacial engineering, and device optimization, Dr. Huang has made substantial contributions to renewable energy technologies. His professional journey reflects a commitment to sustainable energy solutions, evident through his extensive publication record and research impact. Dr. Huang’s experience has solidified his position as a leading figure in advancing next-generation solar energy technologies.

Research Interest

Dr. Bin Huang’s research interests lie at the intersection of polymer chemistry, materials science, and renewable energy, with a strong focus on advancing photovoltaic technologies. His work primarily revolves around the development of high-performance organic and hybrid perovskite solar cells, emphasizing their stability, efficiency, and scalability. Dr. Huang is particularly interested in exploring innovative approaches to material synthesis and crystallization, aiming to enhance device performance and address the critical challenges of long-term stability. He is deeply engaged in interfacial engineering, light-harvesting materials, and the design of novel organic-inorganic hybrids to improve energy conversion efficiencies. Beyond photovoltaics, Dr. Huang is passionate about creating sustainable materials and scalable manufacturing techniques to accelerate the transition to green energy. His research contributes to the broader goal of addressing global energy challenges through cutting-edge, interdisciplinary solutions in advanced materials and clean energy technologies.

Award and Honor

Assist. Prof. Dr. Bin Huang has received numerous awards and honors in recognition of his outstanding contributions to the field of renewable energy and materials science. He was honored with the “Young Scientist Award” for his pioneering work in organic and hybrid perovskite solar cells. Dr. Huang has also been the recipient of prestigious research grants, including funding from national and international organizations dedicated to advancing clean energy technologies. His groundbreaking publications have earned him accolades such as the “Best Paper Award” at renowned international conferences. Additionally, he was recognized with the “Excellence in Teaching Award” for his innovative and impactful approaches to mentoring and education. Dr. Huang’s dedication to scientific innovation and sustainability has also earned him a spot on the “Top 100 Influential Researchers in Energy Materials” list. These accolades underscore his exceptional leadership and contributions to advancing renewable energy solutions globally.

Conclusion

Dr. Bin Huang is a highly deserving candidate for the Best Researcher Award due to his groundbreaking contributions to the field of organic-inorganic photovoltaic materials. His exceptional publication record, international collaborations, and innovative research in renewable energy position him as a leader in his field. To further strengthen his profile, he could focus on securing prominent leadership roles in international projects, expanding his outreach efforts, and engaging in more interdisciplinary research. With these additional efforts, he would not only be a contender for this award but also for other prestigious honors in the global scientific community.

Publications Top Noted

Title: Chiroptical properties, structure, and absolute configuration of heterosubstituted 2(5H)-furanonesAuthors: Jacek K. Gawronski, Quing Hua Chen, Zhe Geng, Bin Huang, M. Rosario Martin, Ana I. Mateo, Malgorzata Brzostowska, Urszula Rychlewska, Ben L. FeringaYear: 1998Citation: Gawronski, J. K., Chen, Q. H., Geng, Z., Huang, B., Martin, M. R., Mateo, A. I., Brzostowska, M., Rychlewska, U., & Feringa, B. L. (1998). Chiroptical properties, structure, and absolute configuration of heterosubstituted 2(5H)-furanones. Chirality, 9(5-6).

Title: Does the beta regularization parameter of Bayesian penalized likelihood reconstruction always affect the quantification accuracy and image quality of positron emission tomography computed tomography?Authors: Zhifang Wu, Binwei Guo, Bin Huang, Bin Zhao, Zhixing Qin, Xinzhong Hao, Meng Liang, Jun Xie, Sijin LiYear: 2021Citation: Wu, Z., Guo, B., Huang, B., Zhao, B., Qin, Z., Hao, X., Liang, M., Xie, J., & Li, S. (2021). Does the beta regularization parameter of Bayesian penalized likelihood reconstruction always affect the quantification accuracy and image quality of positron emission tomography computed tomography? Journal of Applied Clinical Medical Physics, 22(3).
Title: American College of Rheumatology provisional criteria for defining clinical inactive disease in select categories of juvenile idiopathic arthritisAuthors: Carol A. Wallace, Edward H. Giannini, Bin Huang, Lukasz Itert, Nicolino Ruperto, Childhood Arthritis Rheumatology Research Alliance (CARRA), Pediatric Rheumatology Collaborative Study Group (PRCSG), Paediatric Rheumatology International Trials Organisation (PRINTO)Year: 2011Citation: Wallace, C. A., Giannini, E. H., Huang, B., Itert, L., Ruperto, N., CARRA, PRCSG, & PRINTO. (2011). American College of Rheumatology provisional criteria for defining clinical inactive disease in select categories of juvenile idiopathic arthritis. Arthritis Care & Research, 63(7).
Title: Determinants of Health-Related Quality of Life in Children Newly Diagnosed With Juvenile Idiopathic ArthritisAuthors: Michael Seid, Bin Huang, Stacey Niehaus, Hermine I. Brunner, Daniel J. LovellYear: 2013Citation: Seid, M., Huang, B., Niehaus, S., Brunner, H. I., & Lovell, D. J. (2013). Determinants of health-related quality of life in children newly diagnosed with juvenile idiopathic arthritis. Arthritis Care & Research, 66(2).
Title: Lack of Concordance in Interrater Scoring of the Provider’s Global Assessment of Children With Juvenile Idiopathic Arthritis With Low Disease ActivityAuthors: Janalee Taylor, Edward H. Giannini, Daniel J. Lovell, Bin Huang, Esi M. MorganYear: 2017Citation: Taylor, J., Giannini, E. H., Lovell, D. J., Huang, B., & Morgan, E. M. (2017). Lack of concordance in interrater scoring of the provider’s global assessment of children with juvenile idiopathic arthritis with low disease activity. Arthritis Care & Research, 70(1).

Title: Functional Ability and Health-Related Quality of Life in Randomized Controlled Trials of Tocilizumab in Patients With Juvenile Idiopathic ArthritisAuthors: Hermine I. Brunner, Chen Chen, Francesca Bovis, Fabrizio De Benedetti, Graciela Espada, Rik Joos, Jonathan Akikusa, Jeffrey Chaitow, Alina Lucica Boteanu, Yukiko Kimura, Christoph Rietschel, Daniel Siri, Elzbieta Smolewska, Heinrike Schmeling, Diane E. Brown, Alberto Martini, Daniel J. Lovell, Bin Huang, Nicolino RupertoYear: 2020Citation: Brunner, H. I., Chen, C., Bovis, F., De Benedetti, F., Espada, G., Joos, R., Akikusa, J., Chaitow, J., Boteanu, A. L., Kimura, Y., Rietschel, C., Siri, D., Smolewska, E., Schmeling, H., Brown, D. E., Martini, A., Lovell, D. J., Huang, B., & Ruperto, N. (2020). Functional ability and health-related quality of life in randomized controlled trials of tocilizumab in patients with juvenile idiopathic arthritis. Arthritis Care & Research, 73(9).

Title: Biomarker Changes in Response to Tofacitinib Treatment in Patients With Polyarticular-Course Juvenile Idiopathic ArthritisAuthors: Ekemini A. Ogbu, Hermine I. Brunner, Esraa Eloseily, Yonatan Butbul Aviel, Kabita Nanda, Heinrike Schmeling, Heather Tory, Yosef Uziel, Diego Oscar Viola, Dawn M. Wahezi, Stacey E. Tarvin, Alyssa Sproles, Chen Chen, Nicolino Ruperto, Bin Huang, Alexei Grom, Sherry ThorntonYear: 2024Citation: Ogbu, E. A., Brunner, H. I., Eloseily, E., Butbul Aviel, Y., Nanda, K., Schmeling, H., Tory, H., Uziel, Y., Viola, D. O., Wahezi, D. M., Tarvin, S. E., Sproles, A., Chen, C., Ruperto, N., Huang, B., Grom, A., & Thornton, S. (2024). Biomarker changes in response to tofacitinib treatment in patients with polyarticular-course juvenile idiopathic arthritis. Arthritis Care & Research, 76(12).
Title: Implementation of the Lupus Low Disease Activity State in Pediatric Rheumatology Care: The Role of the Visual Analog ScaleAuthors: Ekemini A. Ogbu, Anna Carmela P. Sagcal-Gironella, B. Anne Eberhard, Jennifer M. Huggins, Marisa S. Klein-Gitelman, Karen Onel, Chen Chen, Bin Huang, Hermine I. BrunnerYear: 2024Citation: Ogbu, E. A., Sagcal-Gironella, A. C. P., Eberhard, B. A., Huggins, J. M., Klein-Gitelman, M. S., Onel, K., Chen, C., Huang, B., & Brunner, H. I. (2024). Implementation of the lupus low disease activity state in pediatric rheumatology care: The role of the visual analog scale. ACR Open Rheumatology, 7(1).

Rolande Aurelie Tchouateu Kamwa | Geopolymer | Best Researcher Award

Published On 02/01/202502/01/2025 by ScienceFather

Rolande Aurelie Tchouateu Kamwa | Geopolymer | Best Researcher Award

Dr. Rolande Aurelie Tchouateu Kamwa, Université de Douala-Cameroun, Cameroon.

Dr. Rolande Aurelie Tchouateu Kamwa, a dedicated researcher in sustainable construction materials, specializes in geopolymer technology, material characterization, and the valorization of plant biomass. With a Ph.D. in Inorganic Chemistry from the University of Douala, Cameroon, she is passionate about reducing the carbon footprint of construction materials and developing eco-friendly building solutions. Dr. Tchouateu’s academic journey and professional engagements reflect her commitment to sustainable infrastructure. She has presented her work internationally and published in leading journals, contributing significantly to green construction innovations.

Publication profile

Googlescholar

Education and Experience

Education

2022: Ph.D. in Inorganic Chemistry, Specializing in Physico-Chemistry of Materials, University of Douala, Cameroon
2018–2019: Master’s in Inorganic Chemistry, University of Douala, Cameroon
2015–2016: Bachelor’s in Chemistry, University of Douala, Cameroon
2012–2013: Baccalaureate in Mathematics, Life, and Earth Sciences, Nkongsamba High School, Cameroon

Experience

2023–Present: Temporary Assistant, Civil Engineering Department, University Institute of Technology, Douala-Cameroon
2020–2022: Temporary Assistant, Chemistry Department, University of Douala, Cameroon
2024–Present: Internship, Sorbonne University, Paris, France
2023: Internship, Sorbonne University, Paris, France
2020–2021: Internship, Civil Engineering Lab (Labogenie), Douala-Cameroon
2019–2020: Internship, Laboratory of Geotechnical Study and Control, Douala-Cameroon

Suitability For The Award

Dr. Rolande Aurelie Tchouateu Kamwa stands as a highly accomplished researcher, making her an ideal candidate for the prestigious Best Researcher Award. Her groundbreaking work in sustainable construction materials and expertise in material characterization techniques, geopolymer technology, and environmental impact assessment underscore her significant contributions to the field. Her research focuses on utilizing local raw materials, such as natural pozzolans, clay soils, and organic waste, to develop low-energy, sustainable building materials.

Professional Development

Dr. Tchouateu Kamwa has demonstrated a robust commitment to professional growth through her academic and practical engagements. She participated in multiple internships, including at Sorbonne University, where she conducted advanced analyses using XRD, SEM, and FTIR techniques. Dr. Tchouateu also served as an expert mentor during a summer school in Benin, where she taught materials science and sustainability. Her active involvement in mentoring students and organizing conferences reflects her passion for teaching and promoting green construction practices. Her professional journey embodies a dedication to ecological and innovative material research.

Research Focus

Dr. Tchouateu’s research focuses on the development of low-energy and sustainable building materials using local resources like natural pozzolan, clay soil, and organic waste. Her work emphasizes synthesizing geopolymer binders for soil stabilization, creating durable and eco-friendly materials, and reducing the environmental impact of construction. She integrates plant biomass valorization and cutting-edge material science to innovate in sustainable infrastructure. Her research aligns with global efforts to address climate change and achieve sustainable development in the construction sector.

Awards and Honors

2021: Best Presentation Award at the Geopolymer Research and Application Conference (GRAC2021), Cameroon
2023: Recognition for Presentation at the Green Chemistry Summer School, France
2022: Commendation for Online Presentation during the Green Chemistry Summer School, Italy

Publications Top Notes

Stabilization of compressed Earth blocks (CEB) by pozzolana-based phosphate geopolymer binder: Physico-mechanical and microstructural investigations (18 citations, 2022)
Engineering and structural properties of compressed earth blocks (CEB) stabilized with a calcined clay-based alkali-activated binder (17 citations, 2022)
A comparative study of compressed lateritic earth bricks stabilized with natural pozzolan-based geopolymer binders synthesized in acidic and alkaline conditions (14 citations, 2023)
Effect of curing temperature on properties of compressed lateritic earth bricks stabilized with natural pozzolan-based geopolymer binders synthesized in acidic and alkaline media (7 citations, 2023)
Stabilization of Compressed Earth Blocks (CEB) by Pozzolana Based Phosphate Geopolymer: Physico-Mechanical, Structural and Microstructural Investigations (3 citations, 2021)
Improvement of the bearing capacity of lateritic gravel by a geopolymer binder: road construction in tropical countries (1 citation, 2024)

jili Qu | Geotechnical Engineering | Best Researcher Award

Published On 12/11/202412/11/2024 by ScienceFather

jili Qu | Geotechnical Engineering | Best Researcher Award

Prof. jili Qu, Kashgar University, China.

Qu Jili is a seasoned professor specializing in geotechnical engineering at East China Normal University. With extensive experience in civil engineering, he has made notable contributions to soil stabilization and sustainable infrastructure. Prof. Qu earned his Ph.D. from Tongji University and has since led numerous research projects focused on microbial mineralization, soil corrosion resistance, and eco-friendly construction methods . As a faculty member at Kashgar University, he plays a pivotal role in advancing resilient engineering practices and environmental research. Widely recognized for his innovative work, Prof. Qu has received multiple awards for excellence in teaching and research .

Publication profile

Scopus

Education and Experience

Ph.D. in Underground Engineering, Tongji University, Shanghai, 2002
M.Sc. in Engineering Geology, Nanjing University, Shanghai, 1993
B.Eng. in Hydrogeology and Engineering Geology, Guilin University of Technology, Shanghai, 1985
Professor, School of Civil Engineering, Kashgar University, 2021-present
Associate Professor, University of Shanghai for Science and Technology, 2005-2021
Postdoctoral Fellow, Civil Engineering, Shanghai Jiao Tong University, 2002-2005

Suitability For The Award

Dr. Qu Jili appears to be a highly suitable candidate for the Best Researcher Award, given his exceptional contributions to the fields of geotechnical engineering and environmental sustainability. His research on soil mechanics, microbial solidification, and the durability of soil materials has had a significant impact on both academic and practical applications.

Professional Development

Qu Jili’s professional journey reflects his commitment to advancing geotechnical engineering and sustainable infrastructure . Over the years, he has spearheaded pioneering research on microbial soil reinforcement, long-term weathering resistance, and corrosion-resistant soil stabilization. His work addresses key challenges in civil engineering, particularly the environmental impact of geotechnical practices and sustainable construction techniques. Prof. Qu has hosted multiple high-impact research projects funded by national and provincial agencies . Through his research and academic leadership, he contributes to innovations in civil engineering, supporting resilient and eco-friendly infrastructure development.

Research Focus

Prof. Qu Jili’s research centers on environmental and geotechnical resilience . His work on microbial mineralization and soil stabilization offers sustainable solutions to issues like soil erosion and dust control in arid regions . A significant aspect of his research investigates the durability and corrosion resistance of bio-reinforced soils, which are critical for long-term infrastructure stability. His projects also explore the use of organic and green materials in soil modification for ecological applications . Through innovative methodologies, he aims to advance sustainable engineering practices that prioritize environmental health alongside infrastructure development .

Awards and Honors

Excellent Teacher, University of Shanghai for Science and Technology, 2020
Reading Star, University of Shanghai for Science and Technology, 2020
Second Prize Nomination, Shanghai Natural Science Award, 2020
First Prize in Engineering Practice Innovation, University of Shanghai for Science and Technology, 2017
Outstanding Instructor, Summer Social Practice, University of Shanghai for Science and Technology, 2012
Third Prize, CABR Cup, Huaxia Construction Science and Technology, 2011
Second Prize, Shanghai Teaching Achievements, Shanghai Education Commission, 2010
Excellent Head Teacher, School of Environment and Architecture, 2009

Publications

Enhancing Aeolian Sand Stability Using Microbially Induced Calcite Precipitation Technology – Scientific Reports, 2024, 14(1), 23876 (Cited by: 0)
Roles of Corn Starch and Gellan Gum in Changing Unconfined Compressive Strength of Shanghai Alluvial Clay – Science and Engineering of Composite Materials, 2024, 31(1), 20240002 (Cited by: 1)
Geotechnical Properties of Yellow Silty Sand Soil Modified by Bio-Stimulation with Presence of NiCl2 – IOP Conference Series: Earth and Environmental Science, 2021, 938(1), 012001 (Cited by: 0)
Using the Tape Extensometer for Possibilities of Landslide Monitoring or Other Purposes – IOP Conference Series: Earth and Environmental Science, 2021, 906(1), 012026 (Cited by: 0)
Research on the Effect of Urease on Energy Absorption in Shanghai Clay by Unconfined Compressive Test – IOP Conference Series: Earth and Environmental Science, 2021, 719(4), 042060 (Cited by: 0)
Roes of Curing Conditions on Properties of Soil Reinforced with Palm Fiber and Lime – Emerging Materials Research, 2021, 10(1), pp. 90–102 (Cited by: 1)
Function of Palm Fiber in Stabilization of Alluvial Clayey Soil in Yangtze River Estuary – Journal of Renewable Materials, 2021, 9(4), pp. 767–787 (Cited by: 20)
Strength and Deformation Behavior of Shanghai Andesite Under Various Strain Rates in Uniaxial Loading Test – Geomechanics and Geoengineering, 2021, 16(1), pp. 44–51 (Cited by: 0)
Comparison of Secondary Crushing Operations Through Cone and Horizontal Shaft Impact Crushers – SGEM International Multidisciplinary Scientific GeoConference, 2020 (Cited by: 2)

You-Dong Kim | fuel cell technologies | Best Researcher Award

Published On 05/11/202405/11/2024 by ScienceFather

You-Dong Kim | fuel cell technologies | Best Researcher Award

Mr.You-Dong Kim, Colorado School of Mines, United States.

You-Dong Kim is a Ph.D. candidate in Material Science at the Colorado School of Mines, specializing in advanced fuel cell technologies and nanomaterials . Guided by Professors Ryan O’Hayre and Neal Sullivan, his research delves into solid oxide cells (SOCs) and innovative fabrication methods to enhance energy efficiency . With a Master’s in Nanotechnology and Advanced Materials Engineering and a Bachelor’s in Advanced Materials Engineering from Sejong University, he combines strong technical skills with hands-on research experience in electrochemical testing, ceramic processing, and machine learning applications in materials science . Kim’s work addresses clean energy, durability, and material efficiency in emerging fuel cell technology .

Publication profile

Googlescholr

Scopus

Education and Experience

Ph.D. Candidate in Material Science (2020–2025)
Colorado School of Mines, Golden, Colorado, USA
Advisors: Prof. Ryan O’Hayre and Prof. Neal Sullivan
M.Eng. in Nanotechnology and Advanced Materials Engineering (2016–2018)
Sejong University, Seoul, South Korea
Advisor: Prof. Jun-Young Park
B.Eng. in Advanced Materials Engineering (2011–2016)
Sejong University, Seoul, South Korea
Research Experience in Solid Oxide Cells and Electrochemical Testing
Techniques include tape-casting, spray coating, machine learning applications, and electrochemical analysis .

Suitability For The Award

Mr. Youdong Kim’s extensive research in the field of Material Science, particularly his work on Solid Oxide Cells (SOCs) and Protonic Ceramic Fuel Cells (PCFCs), positions him as a strong candidate for the Best Researcher Award. His efforts in the fabrication and testing of SOCs demonstrate his commitment to advancing energy technologies, which are critical for sustainable energy solutions.

Professional Development

Throughout his career, You-Dong Kim has actively advanced his expertise in fuel cell technologies, nanomaterials, and machine learning applications in materials science . He has gained hands-on experience in fabricating and testing Solid Oxide Cells (SOCs), utilizing techniques like spray coating and electrochemical impedance spectroscopy (EIS) to enhance fuel cell performance . His research also incorporates machine learning to optimize air electrodes, leveraging Python-based models to identify promising catalysts and optimize materials . Kim regularly shares his insights at international conferences, showcasing his findings on sustainable energy technologies and solid oxide fuel cell advancements .

Research Focus

You-Dong Kim’s research centers on clean energy technology, particularly in the development and testing of solid oxide fuel cells (SOFCs) and protonic ceramic fuel cells (PCFCs) . His work explores the fabrication and electrochemical properties of durable fuel cell materials, applying techniques like tape-casting, ultrasonic spray coating, and spin coating to refine performance . Additionally, he investigates machine learning’s role in material design, developing predictive models to improve air electrode efficiency and durability using algorithms like Random Forest and XGBoost . His research directly contributes to sustainable energy solutions by advancing intermediate-temperature solid oxide fuel cells .

Awards and Honors

🏆 University Fellowship (2020–2024)
Awarded by Colorado School of Mines

Publications

“Towards improved stability in proton-conducting ceramic fuel cells” – Meisel, C., Huang, J., Kim, Y.-D., O’Hayre, R., Sullivan, N.P. (2024) – Cited by: 1
“Improving tubular protonic ceramic fuel cell performance by compensating Ba evaporation via a Ba-excess optimized proton conducting electrolyte synthesis strategy” – Kim, Y.-D., Kim, I.-H., Meisel, C., Sullivan, N.P., O’Hayre, R. (2024) – Cited by: 3
“Tuning the Co/Fe ratio in BaCoxFe0.8−xZr0.1Y0.1O3−δ, a promising triple ionic and electronic conducting oxide, to boost electrolysis and fuel cell performance” – Shin, Y., Kim, Y.-D., Sanders, M., Walker, M., O’Hayre, R. (2022) – Cited by: 15
“Proton-conducting ceramics for water electrolysis and hydrogen production at elevated pressure” – Herradon, C., Le, L., Meisel, C., O’Hayre, R., Sullivan, N.P. (2022) – Cited by: 24
“Performance degradation in proton-conducting ceramic fuel cell and electrolyzer stacks” – Le, L.Q., Meisel, C., Hernandez, C.H., O’Hayre, R., Sullivan, N.P. (2022) – Cited by: 26
“Cobalt-free perovskite Ba1-xNdxFeO3-δ air electrode materials for reversible solid oxide cells” – Kim, Y.-D., Yang, J.-Y., Saqib, M., Song, S.-J., Park, J.-Y. (2021) – Cited by: 35

Khaled Sennah | Structural Engineering | Best Researcher Award

Published On 28/10/202428/10/2024 by ScienceFather

Khaled Sennah | Structural Engineering | Best Researcher Award

Prof Dr. Khaled Sennah, Toronto Metropolitan University, Canada.

Khaled Sennah, Ph.D., is a Professor in the Department of Civil Engineering at Toronto Metropolitan University, Canada. With over 35 years of experience in academia and industry, he has excelled as an educator, researcher, and civil engineer. His research focuses on structural engineering, bridge design, and advanced materials. Dr. Sennah has held key roles, including Department Chair and Coordinator of Structural Laboratories. His contributions have been recognized globally through numerous awards, fellowships, and best paper accolades, highlighting his impact on structural and civil engineering innovations. 👷‍♂️

Publication profile

Googlescholar

Orcid

Education and Experience

Ph.D. in Civil Engineering from the University of Windsor, Canada (1998)
M.Sc. in Civil Engineering from Alexandria University, Egypt (1990)
B.Sc. in Civil Engineering from Alexandria University, Egypt (1985, Distinction)
Professor, Toronto Metropolitan University (2007–Present)
Chair, Department of Civil Engineering, Ryerson University (2011–2021)
Adjunct Professor, College of Civil Engineering, Fuzhou University, China (2014–Present)
Coordinator, Structures and Strength of Materials Laboratories, Ryerson University (2000–Present)
Structural Designer, EKR Consulting Civil Engineers, Egypt (1985–1993)

Suitability For The Award

Dr. Khaled Sennah is indeed a strong candidate for the Best Researcher Award, given his exceptional contributions in civil and structural engineering over his extensive career. His research, particularly in bridge engineering, has led to advancements in load distribution, structural resilience, and design innovation.

Professional Development

Khaled Sennah’s career reflects a deep commitment to civil engineering and professional growth. As a professor and former department chair, he has shaped the education of many budding engineers. His role as a coordinator and founder of several engineering laboratories underscores his focus on hands-on learning and innovation. Moreover, Dr. Sennah’s industry experience in structural design and consulting has strengthened his approach to practical engineering solutions. His collaborations with international universities and engineering bodies, including his adjunct roles in Canada and China, further emphasize his dedication to global knowledge sharing and professional excellence.

Research Focus

Dr. Khaled Sennah’s research centers on structural engineering, with a focus on bridge design, load distribution, and material performance under dynamic loads. His work on composite materials and innovative structural solutions has contributed to safer and more resilient infrastructure. He specializes in load-bearing capacities, particularly for concrete and steel structures, examining critical factors such as load distribution and dynamic behavior in curved and skewed bridges. His insights have significantly influenced the Canadian Highway Bridge Design Code, ensuring that modern bridges are safer and more efficient.

Awards and Honors

2024 Best Paper Award, ICCSTE’24, Toronto, Canada
2023 IAAM Scientist Medal for contributions to Structural Engineering Materials
2023 TFA Career Achievement Award, Toronto Metropolitan University
2022 Dean’s Teaching Award, Toronto Metropolitan University
2020 P. L. Pratley Award for best paper in bridge engineering, CSCE
2017 Fellow, Canadian Academy of Engineering (CAE)
2016 Fellow, Engineering Institute of Canada (EIC)
2013 A.B. Sanderson Award for contributions to structural engineering
1998 Governor General’s Gold Medal, University of Windsor, Canada
1998 P. L. Pratley Award for best journal paper in bridge engineering

Publications

Shear Strengthening of RC Beams Incorporating Post-Tensioned Bars and Engineered Cementitious Composite Reinforced with Palm Fronds (2024) – Cited by: [DOI: 10.3390/buildings14103277]
Fatigue and Ultimate Strength Evaluation of GFRP-Reinforced, Laterally-Restrained, Full-Depth Precast Deck Panels with Developed UHPFRC-Filled Transverse Closure Strips (2024) – Cited by: [DOI: 10.3390/app14198806]
Influence of shear strengthening of reinforced normal concrete beams incorporating sustainable materials (2024) – Cited by: [DOI: 10.1002/suco.202300556]
Compressive loading of structural insulated panels and conventional stud walls: a study (2023) – Cited by: [DOI: 10.1680/jstbu.21.00125]
Experimental and numerical investigations of the effectiveness of engineered cementitious composites and stainless steel plates in shear strengthening of reinforced concrete beams (2023) – Cited by: [DOI: 10.1002/suco.202200226]
Push-out test of hybrid shear connector in steel-precast UHPC composite slab (2023) – Cited by: [DOI: 10.1016/j.istruc.2023.02.113]
Computational simulation of nonlinear inelastic behavior of circular concrete-filled stainless-steel tubular short columns incorporating confinement effects (2023) – Cited by: [DOI: 10.1016/j.engstruct.2022.115183]

Manpreet Kaur | Surface Engineering | Best Researcher Award

Published On 22/10/202422/10/2024 by ScienceFather

Manpreet Kaur | Surface Engineering | Best Researcher Award

Dr. Manpreet Kaur, Baba Banda Singh Bahadur Engineering College, India.

Dr. Manpreet Kaur is an Associate Professor in the Mechanical Engineering Department at Baba Banda Singh Bahadur Engineering College. With over 25 years of teaching experience, her expertise lies in surface engineering, thermal spray coatings, and high-temperature corrosion. She holds a Ph.D. in Mechanical Engineering from Punjab Technical University, where her research was recognized with the Best PhD Thesis Award by NACE International. Dr. Kaur has published extensively, contributing significantly to her field through various projects and research initiatives. Her commitment to advancing engineering education and research has made her a respected figure in her discipline.

Publication profile

Orcid

Education and Experience

Ph.D. in Mechanical Engineering
- Punjab Technical University, India (August 2011)
- Specialization: Surface Engineering
- Awarded Best PhD Thesis by NACE International
M.E. in Industrial Metallurgy
- Panjab University, Chandigarh, India (August 2000)
- 61.26%, First Division
B.E. in Mechanical Engineering
- Punjabi University, Patiala, India (May 1997)
- 71.59%, First Division
Associate Professor
- BBSB Engineering College (June 2016 – Present)
- 8 years of service
Assistant Professor (Selection Grade)
- BBSB Engineering College (July 2009 – May 2016)
- 6 years, 11 months
Senior Lecturer
- BBSB Engineering College (April 2006 – July 2009)
- 3 years, 3 months
Lecturer
- BBSB Engineering College (January 1999 – March 2006)
- 7 years, 3 months
Guest Lecturer
- PEC, Chandigarh (Sept 1998 – Nov 1998)
- 2 months

Suitability For The Award

Dr. Manpreet Kaur is a highly accomplished academic and researcher in the field of Mechanical Engineering, specializing in Surface Engineering, Thermal Spray Coatings, and high-temperature corrosion. With nearly 26 years of experience in teaching and research, she has made significant contributions to the understanding and application of protective coatings, making her a strong candidate for the Best Researcher Award.

Professional Development ()

Dr. Kaur has significantly contributed to research and innovation in engineering education. She currently leads the Research & Innovation Centre (RIC) at her college, overseeing various research initiatives and projects. Additionally, she heads the Alumni Cell, fostering connections between graduates and the institution. Her administrative roles have involved enhancing examination processes as Deputy Controller of Examinations. Through her leadership and dedication, she continues to promote academic excellence and facilitate meaningful research collaborations.

Research Focus

Dr. Manpreet Kaur specializes in surface engineering, focusing on thermal spray coatings, high-temperature corrosion, erosion, and wear. Her research aims to develop protective coatings to enhance material performance under extreme conditions. She has led multiple research projects funded by prestigious organizations, contributing to advancements in the field. With 46 publications, including 24 in SCI journals, her work significantly impacts mechanical engineering, particularly in improving the durability and efficiency of engineering materials. Dr. Kaur’s research not only addresses current challenges in the industry but also paves the way for future innovations.

Awards and Honors ()

Best PhD Thesis Award
- NACE International Gateway India Section
Best Researcher Awards
- Multiple recognitions for contributions to engineering research
Recognition for Contributions
- Received accolades for ongoing projects and research initiatives
Publication Recognition
- Acknowledged for significant contributions to multiple international journals

Publications

Sliding wear behavior of plasma sprayed 65% (NiCrSiFeBC)–35% (WC–Co) coating at elevated temperatures (2020) – [Cited by: 6]
Wear and friction characteristics of atmospheric plasma sprayed Cr3C2–NiCr coatings (2020) – [Cited by: 2]
Elevated-Temperature Wear Study of HVOF spray Cr3C2–NiCr-Coated Die Steels (2020) – [Cited by: 7]
High temperature tribological performance of atmospheric plasma sprayed Cr3C2-NiCr coating on H13 tool steel (2020) – [Cited by: 3]
Slurry jet erosion performance of high-velocity flame-sprayed nano mixed Ni-40Al2O3 coating in aggressive environment (2019) – [Cited by: 5]
High-temperature wear behaviour of HVOF sprayed 65% (NiCrSiFeBC)−35% (WC–Co) coating (2019) – [Cited by: 4]
Wear and Friction Behavior of NiCrBSi Coatings at Elevated Temperatures (2019) – [Cited by: 3]
Slurry erosion performance study of high velocity flame sprayed Ni–Al2O3 coating under hydro accelerated conditions (2019) – [Cited by: 2]
High-Temperature Exposure Studies of HVOF-Sprayed Cr3C2-25(NiCr)/(WC-Co) Coating (2016) – [Cited by: 1]
Surface engineering analy

Dr. Chao Wang , Harbin Engineering university, Yantai Research Institute , China.

Publication Profile

Education & Work Experience 📚💼

Suitability Summary

Professional Development 📈🔬

Research Focus 🏗️🔬

Awards & Honors 🏆🎖️

Publication Top Notes

Prof. Liyun Li, Beijing University of Technology, China.

Publication Profile

Education & Experience

Suitability Summary

Professional Development

Research Focus

Awards & Honors 🏆

Publication Top Notes

Dr.Landolf Rhode-Barbarigos , University of Miami , United States.

Publication Profile

Education & Experience

Education: Ph.D. in Structural Engineering – EPFL, Switzerland (2008-2012) M.Sc. in Civil Engineering – EPFL, Switzerland (2006-2008) B.Sc. in Civil Engineering – EPFL, Switzerland (2002-2006)

Suitability Summary

Professional Development

Research Focus

Awards & Honors

Publication Top notes

Dr. Abhik Sur, Sister Nivedita University, India.

Publication Profiles

Education & Experience

Summary Suitability

Professional Development

Research Focus

Awards & Honors 🏆🎖

Publications Top Noted

Education

Professional Experience

Research Interest

Award and Honor

Conclusion

Publications Top Noted

Dr. Rolande Aurelie Tchouateu Kamwa, Université de Douala-Cameroun, Cameroon.

Publication profile

Education and Experience

Education

Experience

Suitability For The Award

Professional Development

Research Focus

Awards and Honors

Publications Top Notes

Prof. jili Qu, Kashgar University, China.

Publication profile

Education and Experience

Suitability For The Award

Professional Development

Research Focus

Awards and Honors

Publications

Mr.You-Dong Kim, Colorado School of Mines, United States.

Publication profile

Education and Experience

Suitability For The Award

Professional Development

Research Focus

Awards and Honors

Publications

Prof Dr. Khaled Sennah, Toronto Metropolitan University, Canada.

Publication profile

Education and Experience

Suitability For The Award

Professional Development

Research Focus

Awards and Honors

Publications

Dr. Manpreet Kaur, Baba Banda Singh Bahadur Engineering College, India.

Publication profile

Education and Experience

Suitability For The Award

Professional Development ()

Awards and Honors ()

Publications

Education:
Ph.D. in Structural Engineering – EPFL, Switzerland (2008-2012)
M.Sc. in Civil Engineering – EPFL, Switzerland (2006-2008)
B.Sc. in Civil Engineering – EPFL, Switzerland (2002-2006)