Size Ai | Engineering | Research Excellence Award

Published on by Research Awards

Mr. Size Ai | Engineering | Research Excellence Award 

Harbin Institute of Technology | China

Dr. Size Ai, currently a PhD researcher at the Harbin Institute of Technology, is an emerging scholar in the field of mechanical metamaterials and advanced structural design. Holding a PhD in Mechanics from Harbin Institute of Technology, Dr. Ai has developed strong expertise in the design, modeling, and steady-state analysis of mechanical metamaterials, focusing particularly on negative stiffness structures, multi-stable metastructures, and pneumatic actuators with tunable mechanical responses. His academic journey reflects a commitment to high-quality research, having published three SCI-indexed papers in top-tier JCR Q1 journals such as Thin-Walled Structures and Engineering Structures. His works include: “Analysis of Negative Stiffness Structures with B-spline Curved Beams” (Thin-Walled Structures, 2024), “Design and Analysis of an Origami-Embedded Multi-Stable Metastructure with Shape Reconfiguration” (Engineering Structures, 2025), and “Deep Learning-Based Structural Design and Mechanical Properties Analysis of Pneumatic Actuators with Tunable Multistability” (Thin-Walled Structures, 2025). These publications highlight Dr. Ai’s ability to integrate theoretical modeling, simulation optimization, deep learning techniques, and experimental validation to solve complex challenges in structural mechanics. He has contributed significantly to ongoing national research through his involvement in the National Natural Science Foundation of China project (Grant No. 12372041), which further demonstrates his active engagement in advancing scientific knowledge. One of Dr. Ai’s major contributions includes developing a configuration parameterization method based on B-spline curves to customize negative stiffness characteristics in metamaterials. Additionally, he proposed a steady-state switching strategy using reconfigurable energy barrier elements, enabling precise control over multi-stability and shape transformation in engineered structures. His work successfully demonstrates, through combined theory, simulations, and experiments, the feasibility of programmable mechanical behavior after forming—an advancement with promising applications in soft robotics, adaptive structures, vibration isolation, and smart materials. Dr. Ai’s research continues to attract academic attention, with citations indexed in the Web of Science database. He maintains a strong ethical commitment to research integrity, with no consultancy projects, patents, or books yet undertaken. While he currently holds no editorial appointments, professional memberships, or formal collaborations, his research trajectory shows excellence, independence, and innovation, positioning him as a competitive candidate for the Research Excellence Award. Dr. Ai affirms that all submitted information is accurate, verifiable, and supported by relevant research links, including: 10.1016/j.tws.2025.114287 and 10.1016/j.tws.2023.111418. He fully agrees to the terms, policies, and responsibilities associated with this award nomination and submits this application with the highest level of integrity.

Profile: Scopus

Featured Publications

Ai, S., Xie, Z., & Wei, J. (2025, November). Deep learning-based structural design and mechanical properties analysis of pneumatic actuators with tunable multistability.

Ai, S., Hou, S., Wei, J., & Xie, Z. (2025, October). Design and analysis of an origami-embedded multi-stable metastructure with shape reconfiguration.

Hou, S., Wei, J., Ai, S., & Tan, H. F. (2025, March). Broadband nonlinear vibration isolation for a friction dynamic system via quasi-zero stiffness isolator.

Bian, S., Ai, S., Wei, J., & Qingxiang, J. (2025, March). Structural design and performance analysis of large inflatable solar membrane reflector.

Ai, S., Wei, J., Xie, Z., & Tan, H. F. (2023, November). Analysis of negative stiffness structures with B-spline curved beams.

Tiezhen Ren | Advanced Materials Engineering | Research Excellence Award

Published on by Research Awards

Prof. Tiezhen Ren | Advanced Materials Engineering | Research Excellence Award

Xinjiang university | China

Prof. Dr. Tie-Zhen Ren is a distinguished Professor at the School of Chemical Engineering, Xinjiang University, China. She obtained her Ph.D. in Inorganic Materials Chemistry from the University of Namur (FUNDP), Belgium, where she completed a thesis on hierarchically nanoporous functional materials under the supervision of Prof. Bao-Lian Su. Prior to her doctorate, she studied Polymer Engineering at Tianjin Institute of Technology and later pursued graduate studies in Plant Protection at Anhui Agricultural University. Her academic career includes serving as a Professor at Hebei University of Technology (2007–2021), conducting postdoctoral research at Stockholm University in Sweden, and working as a visiting researcher at the City College of New York. Prof. Ren’s research focuses on the synthesis and characterization of nanostructured materials, mesoporous silica and metal oxide systems, photocatalysis, environmental materials, crystalline porous germanium oxides, catalyst development, and biomass-derived functional materials. She has extensive experience with advanced characterization techniques such as TEM, SEM-EDX, XRD, FT-IR, and electrochemical systems, and actively teaches courses such as General Chemistry, Chemical Engineering Principles, Catalysis, and Technical English. Prof. Ren has been the recipient of numerous prestigious honors, including the China National Scholarship for Outstanding Self-Financed Students Abroad, the Tianchi Talent Leader Award, and the Tianjin Natural Science Award. She has led multiple national and international research projects funded by the National Natural Science Foundation of China, Ministry of Education, and Xinjiang Autonomous Region, focusing on photocatalysis, nanocatalyst design, biomass valorization, and environmental remediation. She has authored and co-authored more than 80 peer-reviewed scientific publications across high-impact journals and continues to contribute to research in sustainable chemistry, catalysis, and materials science. She is fluent in English and Chinese and has basic proficiency in French.

Profiles: Scopus | Orcid

Featured Publications

Huang, S., Zhang, H., Zhang, T., Li, C., Ren, T., & He, Z. (2025). High‐efficiency exfoliation of atomically‐thin non‐Van der Waals quasicrystal nanosheets with enhanced electrocatalytic oxygen evolution reaction performance. Small Methods. https://doi.org/10.1002/smtd.202501162

Song, Z.-H., Muhammad, I., Ren, T.-Z., Abulizi, A., Okitsu, K., Li, H.-R., & Zhang, X.-J. (2025, March 27). Preparation of Al₂O₃ nanoparticles via fluidized roasting and their application in the pyrolysis of spent mulching film for hydrocarbon production. ACS Sustainable Resource Management. https://doi.org/10.1021/acssusresmgt.4c00436

Han, J., Sun, L., Ulbricht, M., Fischer, L., Zhang, G., Gao, W., Lv, L., Ren, T., Liu, X., & Ren, Z. (2025). Sulfite enhanced permanganate/Fe(II) moderate oxidation coagulation for the treatment of algae-laden water: Performance and mechanisms. Chemical Engineering Journal. https://doi.org/10.1016/j.cej.2024.159084

Fu, H., Bai, H., Abulizi, A., Okitsu, K., Maeda, Y., Ren, T., & Wang, S. (2024). Surfactant-enhanced ZnOₓ/CaO catalytic activity for ultrasound-assisted biodiesel production from waste cooking oil. Reaction Chemistry & Engineering. https://doi.org/10.1039/D3RE00306J

Cui, M.-J., Li, S.-S., Ren, T., Abulizi, A., & Nulahong, A.-S. (2024). Boosting BaTi₄O₉ photocatalytic H₂ evolution activity by functionalized CuNi alloy. Journal of Photochemistry and Photobiology A: Chemistry. https://doi.org/10.1016/j.jphotochem.2024.115834

Cui, M.-J., Muhammad, I., Feng, J., & Ren, T. (2024). Isopropanol assisted preparation of α–Al₂O₃ nanoparticles and its surface charge investigation. Solid State Sciences. https://doi.org/10.1016/j.solidstatesciences.2024.107706

Yurou Liu | Management and Accounting | Research Excellence Award

Published on by Research Awards

Assist Prof Dr. Yurou Liu | Management and Accounting | Research Excellence Award

southwest Jiaotong University | China

Dr. Yurou Liu is an emerging scholar and Assistant Professor at Southwest Jiaotong University, China, with a strong academic foundation supported by a Ph.D. from Renmin University of China and international experience as a visiting researcher at the National University of Singapore. Her research sits at the intersection of law and finance, earnings management, and tax avoidance, with a particular focus on how legal systems, regulatory frameworks, and governance arrangements influence corporate financial decision-making and strategic behavior. Dr. Liu has successfully led three funded research projects, including a prestigious National Natural Science Foundation Youth Project, as well as grants from the Ministry of Education and Renmin University, demonstrating her ability to secure competitive research funding and contribute to national academic priorities. Complementing her academic research portfolio, she has also engaged with industry through a consultancy research project commissioned by the Shanghai Municipal Audit Bureau, focusing on the development and international benchmarking of audit mechanisms in the China (Shanghai) Pilot Free Trade Zone, showcasing applied policy relevance and societal impact. Dr. Liu has published eight peer-reviewed journal articles in highly regarded and internationally indexed outlets, including the Journal of Corporate Finance, Journal of Business Ethics, British Accounting Review, and Accounting and Business Research, along with other respected journals in the field of accounting and finance. Her research has received growing scholarly recognition, accumulating more than 120 citations on Google Scholar, reflecting increasing influence and relevance within the academic community. Through her empirical work, Dr. Liu provides novel insights into how judicial efficiency affects corporate investment and financing behavior, how reforms and dispute resolution mechanisms influence financial misconduct, and how disclosure policies and governance systems shape innovation, transparency, and market response. Her findings contribute meaningful evidence supporting improved investor protection, enhanced regulatory enforcement, reduced financial risk, and greater accountability within corporate systems. With a research agenda aligned toward public governance, financial integrity, and evidence-based regulation, Dr. Liu contributes rigorously to both theoretical advancement and policy development. Her academic achievements, demonstrated leadership in funded research, and impactful publications underscore her growing standing as a promising young scholar in the global research community. Her commitment to research excellence, ethical scholarship, and continuous contribution to knowledge makes her a strong candidate for recognition under the Research Excellence Award.

Profiles: Scopus | Google Scholar

Featured Publications

Liu, Y. (2023). Judicial independence and crash risk: Evidence from a natural experiment in China. Journal of Corporate Finance, 83, Article 102490.

Liu, Y. (2022). Investor protection and audit fees: Evidence from the E-interaction platform in China. Accounting and Business Research, 52(7), 815–837.

Liu, Y., & Liu, J. (2024). Social integrity and stock price crash risk. Journal of Business Ethics, 190(3), 703–721.

Liu, J., Ye, K., & Liu, Y. (2023). Mandatory information disclosure and innovation: Evidence from the disclosure of operational information. China Journal of Accounting Research, 16(2), Article 100294.

Liu, Y. (2023). The high-speed railway opening and audit quality: Evidence from China. Economic and Political Studies, 11(4), 494–515.

Liu, Y., Ye, K., & Liu, J. (2023). Major asset restructuring performance commitments and classification shifting through non-recurring items. China Journal of Accounting Studies, 11(2), 270–299.

Liu, Y., & Chen, H. (n.d.). Does retail investor attention deter or promote earnings management? Evidence from interactive platforms. (Publication status unknown).

 

Sapna Bijimanzil Abdulkareem | Materials | Best Researcher Award

Published on by Research Awards

Dr. Sapna Bijimanzil Abdulkareem | Materials | Best Researcher Award 

Dr. Sapna Bijimanzil Abdulkareem | KIT-Kalaignarkarunanidhi Institute of Technology | India

Dr. Sapna B. A is an accomplished academic and researcher with over 15 years of combined experience in research, teaching, and industry. Currently serving as Assistant Professor at Kalaignarkarunanidhi Institute of Technology, Coimbatore, she specializes in high-performance antennas for UWB, biomedical, and next-generation wireless applications. Her career spans notable roles in academia and engineering design, complemented by significant contributions to AICTE-funded projects, international publications (15 SCI/Scopus indexed papers), conference presentations, and workshops. A recipient of multiple research excellence awards and grants, Dr. Sapna is also a recognized IEEE and ISTE life member, known for her expertise in CST Studio, HFSS, ADS, MATLAB, and LabVIEW.

Author Profile

Orcid

Education

From the outset of her academic journey, Dr. Sapna B. A demonstrated a strong commitment to excellence in the field of Electronics and Communication Engineering. She earned her B.E. in Electronics and Communication Engineering from Jerusalem College of Engineering, University of Madras in 2000, followed by an M.E. in Communication Systems from B.S.A Crescent Engineering College, Anna University in 2007 with an impressive 76% score. Her academic quest reached its pinnacle with a Ph.D. in Information and Communication Engineering from Anna University in 2022, under the guidance of Dr. G. Srivatsun at PSG College of Technology. Her doctoral thesis, “High Performance Antennas for UWB Applications”, laid a strong research foundation in advanced antenna design, integrating both theoretical depth and practical innovation. These formative years shaped her as a scholar with a deep curiosity for communication systems and a vision to contribute significantly to wireless technology.

Experience

Dr. Sapna’s professional path reflects a rare blend of academic leadership, research excellence, and industry expertise. She began her career as a Lecturer at CSI College of Engineering, The Nilgiris (2001–2005), and later at B.S.A Crescent Engineering College, Chennai (2007–2008), where she honed her teaching skills and laboratory development expertise. Transitioning into the corporate world, she worked as a Design & Estimation Engineer at Zahra Technology & Communication Systems, Dubai (2008–2011), leading projects in large-scale security systems for iconic sites like the Dubai Mall and Princess Tower.

Returning to academia, she served as Assistant Professor at RVS College of Engineering & Technology and INFO Institute of Engineering, where she coordinated NBA accreditation, organized conferences, trained GATE aspirants, and strengthened industry-academia collaborations. Since 2022, she has been an Assistant Professor at Kalaignarkarunanidhi Institute of Technology, Coimbatore, overseeing the ANSYS 5G Antenna Innovation Hub and leading AICTE-funded projects on wearable and implantable biomedical antennas.

Research Focus

Dr. Sapna’s research is deeply rooted in innovative antenna technologies for biomedical, wearable, and next-generation wireless communication systems. Her work spans the design of planar antennas for WLAN and UWB applications, gain and bandwidth enhancement through defected ground structures and partial reflecting surfaces, and the development of low SAR implantable antennas to ensure patient safety in biomedical contexts. She has also contributed significantly to the use of frequency selective surfaces (FSS) for improving UWB antenna performance, and has pioneered flexible, biodegradable antenna designs for Wireless Body Area Networks (WBAN), aligning with sustainable technology goals. Over the years, she has authored 15 international journal papers, several of which appear in high-impact SCI-indexed publications such as AEU – International Journal of Electronics and Communications, Frequenz, and International Journal of Microwave and Wireless Technologies. Her contributions have also been widely recognized in the conference circuit, with 10 international presentations, numerous Scopus-indexed proceedings, and regular invitations to review manuscripts for prestigious journals.

Award and Recognition

In recognition of her exemplary research and academic leadership, Dr. Sapna has earned numerous awards and competitive grants. She received the Best Paper Award at the IEEE-sponsored RAEEUCCI 2025 for her groundbreaking work on implantable antennas for ulcer monitoring. In 2024, she was honored with the Faculty Excellence Award by SNS Institutions for her outstanding achievements in research and publication. Her consistent performance has been further acknowledged by multiple cash awards from KIT, amounting to ₹48,000 in 2024–25 and ₹20,000 in 2023–24, celebrating her contributions to advancing institutional research output. Demonstrating her capacity to attract major funding, she secured AICTE support worth ₹8,50,000 to conduct advanced faculty development programs and workshops, fostering skill enhancement and research capabilities among peers. These achievements highlight not only her scholarly impact but also her ability to deliver tangible, high-value outcomes in the realm of applied research.

Impact and Influence

Dr. Sapna’s influence extends beyond publications—she has mentored UG and PG students, guided innovative projects, and organized numerous national and international workshops on antenna design, wearable devices, and 5G/6G technologies. She actively contributes to professional communities as a Life Member of ISTE and IEEE member, sharing expertise in CST Studio, HFSS, ADS, MATLAB, and LabVIEW. Her collaborative approach bridges academia, industry, and research, enabling students and peers to access cutting-edge developments in RF and microwave engineering.

Publications

A compact flexible and biodegradable dual wideband implantable antenna for biotelemetry.

Author: Sapna Bijimanzil Abdulkareem , Ramasamy Kuppusamy
Journal: Electronics and Communications
Year: 2025

A flexible wideband wearable CPW antenna for WBAN application.

Author: Sapna B. A. and Ramasamy K.
Journal: Frequenz
Year: 2025

An ultraminiaturized implantable antenna with low SAR for biotelemetry.

Author: Sapna B. A. and Ramasamy K.
Journal: RF & Antenna System
Year: 2025

A novel wearable monopole antenna with controlled SAR using metamaterial.

Author: Sapna B. A. , Ramasamy K. and M. Jayasheela
Journal: Microwave and Wireless Technologies
Year: 2023

Conclusion

Prof. A. Anil Kumar’s exceptional academic achievements, groundbreaking research in Chemical Sciences, and dedication to fostering innovation make him a distinguished candidate for the Best Researcher Award. His contributions have not only advanced scientific understanding but also inspired the next generation of researchers. With a strong record of impactful publications, mentorship, and commitment to solving real-world challenges, Prof. Kumar continues to demonstrate the qualities of a visionary leader in his field, fully deserving of this prestigious recognition.