Baoling Jia | Materials Science | Best Researcher Award

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Dr. Baoling Jia | Materials Science | Best Researcher Award

Lecturer, Lanzhou University of Technology, China

Baoling Jia is a dedicated lecturer and PhD student at Lanzhou University of Technology, known for her innovative contributions to biomedical materials research. She specializes in the development and modeling of microneedle (MN) systems designed for enhanced transdermal drug delivery and biosensing. Through interdisciplinary research that bridges materials science and biomedical engineering, Jia is advancing medical technology with practical, patient-friendly solutions. Her work is characterized by precision, sustainability, and an emphasis on improving mechanical and biological performance through smart material design and fabrication.

Professional Profile

Education 🎓

Jia completed her Bachelor’s and Master’s degrees in Materials Science and Engineering at Lanzhou University of Technology. She is currently pursuing her PhD at the same institution, where she continues to focus on biomedical material design, particularly UV-curable polymers and their use in medical applications. Her education has been rooted in the principles of polymer chemistry, mechanical modeling, and biomedical systems, forming a solid foundation for her cutting-edge microneedle research.

Experience 💼

Baoling Jia With a combined role as a university lecturer and a PhD researcher, Jia plays an active part in both academic instruction and scientific inquiry. She has participated in multiple interdisciplinary projects focusing on microneedle development for therapeutic and diagnostic applications. Her experience includes hands-on work with photopolymerization, 3D printing, and the mechanical testing of polymer structures, equipping her with the technical depth needed to solve real-world medical material challenges. Jia is recognized for her collaborative spirit, frequently working with teams across materials science, mechanical engineering, and biomedicine.

Research Interests 🔬

Baoling Jia focuses on biomedical materials, particularly the design and fabrication of UV-curable polymer microneedles. Her research explores staggered microneedle structures for better skin penetration and comfort, along with biocompatibility and mechanical performance testing. She also applies 3D printing and photopolymerization techniques to develop scalable, minimally invasive transdermal drug delivery systems and biosensors aimed at improving long-term healthcare solutions.

Publications Top Note📄

  • Jia, Baoling; Xia, Tiandong; Xu, Yangtao; Li, Bei. Staggered Design of UV–Curable Polymer Microneedle Arrays with Increased Vertical Action Space. Polymers, 2025. (Open Access)
    Summary: This study presents a novel staggered architecture for UV-curable polymer microneedle arrays to enhance vertical action space. The design improves mechanical penetration efficiency and user comfort, offering potential for advanced transdermal delivery and biosensing technologies.

Conclusion 🏁

Baoling Jia is a promising early-career researcher whose contributions to biomedical materials are poised to make a lasting impact on healthcare technologies. Her work on staggered UV-curable microneedle systems represents a significant step forward in medical material design, blending innovation, efficiency, and patient-centered application. With a strong academic foundation, practical research experience, and a clear focus on solving real-world problems, Jia exemplifies the qualities of a forward-thinking biomedical engineer. Her work will continue to influence the future of non-invasive therapeutics and diagnostics, making her a highly suitable nominee for recognition and support in the field of biomedical research.

Hemalatha Somireddi | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Hemalatha Somireddi | Materials Science | Best Researcher Award 

Associate Professor, Raghu Engineering College, India

Dr. Hemalatha Somireddi is an accomplished academic and researcher in Mechanical Engineering with a specialization in Industrial and Manufacturing Systems. Currently serving as an Associate Professor at Raghu Engineering College, Visakhapatnam, she has consistently contributed to both teaching and applied research in her field. With over 17 years of teaching and industry experience, she is recognized for her expertise in supply chain modeling, performance evaluation of container terminals, and mechanical characterization of materials. Dr. Hemalatha is also an active contributor to academic and professional development through organizing seminars, guiding students, publishing technical papers, and securing patents. Her passion lies in bridging academic research with real-world engineering problems.

Profile

Orcid

Education 🎓

Dr. Hemalatha earned her Ph.D. in Mechanical Engineering from Jawaharlal Nehru Technological University, Kakinada, in 2020, where she focused on performance measurement frameworks for container terminals. She completed her Master’s in Industrial Engineering from Andhra University in 2012 with a CGPA of 8.1. Her undergraduate degree, a B.Tech in Mechanical Engineering, was awarded by JNTU Hyderabad in 2006. Her academic journey began with intermediate education at Guntur Vikas Junior College and SSC from a government high school in Srikakulam, reflecting her strong foundational knowledge and consistent academic performance.

Experience 💼

Dr. Hemalatha began her career as a Design Engineer at SBC Naval Dockyard, Visakhapatnam, gaining valuable industrial exposure from 2006 to 2008. Transitioning to academia, she served as an Assistant Professor at various institutions including Sri Gnaneswari Research & Technological Academy and Sri Chaitanya College of Engineering. She later joined Lendi Institute of Engineering & Technology, progressing from Assistant to Associate Professor. Since 2017, she has been associated with the Raghu group of institutions, currently holding the position of Associate Professor at Raghu Engineering College. Her roles have extended beyond teaching to include responsibilities such as R&D coordination, organizing technical seminars, and coordinating accreditation activities.

Research Interests 🔬

Dr. Hemalatha’s research primarily revolves around performance analysis in logistics and manufacturing systems, particularly focusing on container terminal operations, supply chain modeling under fuzzy environments, and multi-criteria decision-making techniques. She also explores material characterization, including hybrid polymer composites, metal matrix composites, and performance enhancement of centrifugal and injection molding systems. Her research reflects a blend of theoretical modeling and practical validation, often incorporating AI-based tools and optimization techniques for manufacturing processes.

Publication Top Note📚

“Supply chain strategy based supplier evaluation – An integrated framework” (IJMVSC, 2015) – cited for its methodological approach to supplier evaluation.

“Supply chain performance evaluation through AHM and membership degree transformation” (Materials Today: Proceedings, 2017) – Scopus Indexed.

“Modeling and analysis of a four stage supply chain under fuzzy environment” (IJENM, 2018) – recognized for its application of fuzzy logic in logistics modeling.

“Service quality evaluation and ranking of container terminal operators” (AJSL, 2018) – featured in the Asian Journal of Shipping and Logistics, widely cited in terminal performance literature.

“Service quality evaluation through AHM and Membership Degree Transformation” (Materials Today: Proceedings, 2019) – frequently referenced in studies on maritime logistics.

“Design, Development and Testing of an Automatic Desktop Injection Molding Machine” (IJARIIT, 2021) – illustrates her interdisciplinary work bridging design and manufacturing.

“Technical Efficiency Evaluation and Ranking of Container Terminal Operators Through DEA” (Materials Today: Proceedings, 2023) – a significant contribution in performance benchmarking.

Conclusion ✅

Dr. Hemalatha Somireddi has carved a niche for herself in mechanical and industrial engineering through her persistent pursuit of academic excellence, impactful research, and active community engagement. Her work addresses contemporary challenges in manufacturing and logistics, integrating tools like DEA, AHP, and fuzzy logic into performance measurement and evaluation systems. With a forward-looking mindset, she continues to explore innovative methodologies in materials and manufacturing technologies. As a mentor, innovator, and academic leader, she exemplifies the spirit of applied engineering education and research, consistently contributing to the advancement of both her students and the scientific community.