Dr. Guangli Liu | Biodegradable Microrobot | Best Researcher Award

Anhui Medical University | China

Liu Guangli, Ph.D., is a dedicated researcher and educator specializing in Instrument Science and Technology, with expertise in biomedical engineering applications. A native of Weifang City, Shandong Province, and a member of the Communist Party of China, she earned her doctorate from the University of Science and Technology of China under the supervision of Professor Chu Jia Ru. she has served as a Lecturer and Associate Professor (by courtesy) at the School of Biomedical Engineering, Anhui Medical University, where she also supervises master’s students. Her research integrates optical phantoms, micro/nano carriers, 3D printing of biocompatible materials, and smart responsive devices, aiming to advance diagnostic and therapeutic technologies. Liu has made notable contributions through high-impact publications, patents, and funded projects, while also excelling as an educator through innovative teaching practices. Her professional commitment reflects a blend of scientific innovation, technical skill, and dedication to nurturing the next generation of biomedical engineers.

Profile:

Scopus

Education: 

Liu Guangli holds a strong academic foundation in engineering and biomedical instrumentation. She completed her Bachelor of Engineering in Mechanical Design, Manufacturing, and Automation at Luoyang Normal University . She then pursued a direct-entry Doctor of Engineering degree in Instrument Science and Technology at the University of Science and Technology of China , conducting her doctoral research under the guidance of Professor Chu Jia Ru. Her doctoral studies focused on advanced biomedical instrumentation and optical phantom technology, combining mechanical design principles with medical applications. This interdisciplinary training provided her with expertise in micro/nano device fabrication, 3D printing for biomedical purposes, and the development of responsive materials for diagnostic and therapeutic applications. This solid educational background has been pivotal in shaping her research direction, enabling her to bridge engineering innovation with healthcare needs while fostering technological advancements in biomedical engineering education and research.

Experience:

Liu Guangli has been a Lecturer and Associate Professor (by courtesy) at the School of Biomedical Engineering, Anhui Medical University, where she also serves as a master’s supervisor. She has taught a wide range of undergraduate and postgraduate courses, including Digital Medicine, Medical Imaging Technology and Equipment, Mobile Healthcare, Professional English, Biomedical Sensing and Detection Technology, Embedded Systems, and Professional Introduction. Liu has also supervised research projects in optical phantoms, 3D printing of biocompatible materials, and smart responsive devices, leading to publications in prestigious journals such as Sensors and Actuators A and 3D Printing and Additive Manufacturing. Her academic contributions extend to patent development, conference presentations, and leadership in funded research projects from provincial and institutional sources. Her dual role as an educator and researcher demonstrates her ability to integrate cutting-edge research with innovative teaching, fostering a strong learning and research culture among her students.

Awards and Honors:

Liu Guangli has received notable recognition for her academic and teaching excellence. she was awarded the Second Prize in the “Classroom Ideology and Politics” Teaching Competition of the School of Biomedical Engineering, highlighting her ability to integrate ideological and political education into her teaching. she was honored as an “Outstanding Class Teacher” of Anhui Medical University , reflecting her dedication to student mentorship and holistic education. Her academic career is further marked by successfully securing competitive research funding from the Anhui Provincial Natural Science Foundation, Anhui Medical University Doctoral Research Fund, and the Anhui Provincial Universities Natural Science Research Project. These awards and honors illustrate her professional competence, teaching innovation, and research leadership, affirming her role as a respected educator, mentor, and scientist in the field of biomedical engineering and medical device research.

Research Focus:

Liu Guangli’s research lies at the intersection of biomedical engineering, material science, and instrumentation, with a particular focus on developing innovative medical diagnostic and therapeutic tools. She works extensively on optical phantoms, enabling the simulation of human tissue optical properties for imaging system calibration and biomedical studies. Her expertise in micro/nano carriers supports targeted drug delivery and responsive biomedical devices. She also advances the field of 3D printing by creating biocompatible materials and structures that mimic biological tissues for medical imaging, surgical planning, and regenerative medicine applications. Additionally, her work on smart responsive devices integrates stimuli-sensitive materials with engineering design to create adaptable biomedical systems. Liu’s research output includes publications in high-impact journals, international conference presentations, and patents that contribute to medical technology development. By bridging engineering innovation with clinical needs, her work addresses critical challenges in precision medicine, medical imaging, and biomedical device functionality.

Publication:

Title: High-sensitivity wearable sensor based on micro-needle structure design assisted by 3D printing
Year: 2025

Title: A biodegradable magnetic microrobot based on alginate/GelMA microcapsules for delivery of chondroitin sulfate for cartilage tissue repair
Year: 2025

Title: Manipulation Study of Bubble-Propelled Hydrogel Microbots
Year: 2025

Conclusion:

Dr. Liu Guangli stands out as a highly accomplished researcher whose expertise in biomedical engineering, instrumentation, and material science has led to innovative solutions with practical clinical relevance. Her achievements in research publications, patents, and competitive funding demonstrate her capability to contribute meaningfully to her field. She combines rigorous academic work with impactful teaching, nurturing both scientific advancement and human capital development. While opportunities remain to further expand her international profile and industry collaborations, her current trajectory reflects exceptional promise and sustained commitment to innovation. Her interdisciplinary approach and ability to translate complex engineering concepts into healthcare applications position her as a deserving candidate for the Best Researcher Award, with potential for even greater contributions to science and society in the years ahead.