Li Yiran, born on December 1, 1992, in Jilin, Jilin Province, China, is a dedicated researcher in the field of pharmacokinetics and biomedical instrumentation. As a member of the Communist Party of China, they hold a strong commitment to scientific progress and innovation. With a Ph.D. from Nanjing University of Aeronautics and Astronautics, Li Yiran has demonstrated exceptional leadership and expertise in managing research projects and teams. Their contributions to academia include numerous publications in esteemed journals and presentations at international conferences.
Author Metrics:
Scopus Profile
Li Yiran’s academic achievements are underscored by their author metrics, which include publications in high-impact journals such as Molecular Imaging and Biology and Biomedical Optics Express. They have also presented their research findings at various international conferences, contributing to the dissemination of knowledge in their field.
Li Yiran’s publications have been cited 6 times across 5 documents, indicating a modest but notable impact within their field. The h-index, which measures both the productivity and impact of an author’s publications, is currently not available in the provided information.
Education:
Li Yiran’s academic journey began with a Bachelor’s degree in Biomedical Engineering from Changchun University of Science and Technology. They continued their studies with a Master’s degree in Biomedical Image Processing from the same institution. Currently pursuing a Ph.D. in Instrument Science and Technology at Nanjing University of Aeronautics and Astronautics, Li Yiran’s educational background reflects their dedication to interdisciplinary research in biomedical instrumentation and pharmacokinetics.
Research Focus:
Li Yiran’s research focuses primarily on pharmacokinetics research and instrument development. Their work involves the design and implementation of innovative monitoring systems for studying drug metabolism and transport dynamics in living organisms, particularly small animals. This research contributes to advancements in drug delivery systems and therapeutic interventions.
Professional Journey:
Throughout their professional journey, Li Yiran has demonstrated exceptional skills in project management, instrument development, academic writing, and public speaking. They have led research teams and collaborated with peers and supervisors to address complex challenges in pharmacokinetics and biomedical instrumentation. Their dedication to research excellence has earned them recognition and awards at various levels.
Honors & Awards:
Li Yiran’s outstanding contributions to research and innovation have been recognized through numerous honors and awards. These accolades include prestigious national awards, provincial and ministerial level recognition, municipal awards, and paper awards. Their achievements underscore their commitment to academic excellence and leadership in their field.
Publications Noted & Contributions:
Li Yiran’s publications in reputable journals such as Molecular Imaging and Biology and Biomedical Optics Express highlight their significant contributions to the field of pharmacokinetics and biomedical instrumentation. Their research findings provide valuable insights into drug metabolism, transport dynamics, and the development of monitoring systems for in vivo studies.
Multi-channel Small Animal Drug Metabolism Real-Time Monitoring Fluorescence System
Authors: Li, Y., Jin, X., Wang, F., …, Qian, Z., Li, W.
Published in: Molecular Imaging and Biology, 2024, 26(1), pp. 138–147
Abstract: This article presents a multi-channel small animal drug metabolism real-time monitoring fluorescence system. Unfortunately, the abstract is not available.
Evaluation method of ex vivo porcine liver reduced scattering coefficient during microwave ablation based on temperature
Authors: Jin, X., Liu, W., Li, Y., …, Li, W., Qian, Z.
Published in: Biomedizinische Technik, 2022, 67(6), pp. 491–501
Abstract: This article describes an evaluation method of ex vivo porcine liver reduced scattering coefficient during microwave ablation based on temperature. Unfortunately, the abstract is not available.
Real-time evaluation of microwave ablation based on the combination of near-infrared spectroscopy technology and shear wave elastography technology
Authors: Jin, X., Li, Y., Feng, Y., …, Qian, Z., Zhou, J.
Published in: Proceedings of SPIE – The International Society for Optical Engineering, 2021, 11900, 119002S
Abstract: This article discusses the real-time evaluation of microwave ablation based on the combination of near-infrared spectroscopy technology and shear wave elastography technology. Unfortunately, the abstract is not available.
Study on the relationship between reduced scattering coefficient and Young’s modulus of tumors in microwave ablation
Authors: Jin, X., Li, Y., Liu, W., …, Li, W., Zhou, J.
Published in: Minimally Invasive Therapy and Allied Technologies, 2021, 30(6), pp. 347–355
Abstract: This article presents a study on the relationship between the reduced scattering coefficient and Young’s modulus of tumors in microwave ablation. Unfortunately, the abstract is not available.
Study of cervical precancerous lesions detection by spectroscopy and support vector machine
Authors: Liu, W., Jin, X., Li, J., …, Li, W., Yan, X.
Published in: Minimally Invasive Therapy and Allied Technologies, 2021, 30(4), pp. 208–214
Abstract: This article presents a study of cervical precancerous lesions detection by spectroscopy and support vector machine. Unfortunately, the abstract is not available.
Research Timeline:
Li Yiran’s research journey spans from their undergraduate studies to their current Ph.D. pursuit. They have been involved in various research projects, including the development of precision microwave thermal ablation equipment for tumor treatment and the design of multi-scale imaging systems for studying nanomedicine transport characteristics. Their research timeline reflects a continuous dedication to advancing scientific knowledge and technological innovation.
Collaborations and Projects:
Li Yiran has collaborated with peers, supervisors, and research teams on multiple projects, both within academic institutions and through external funding sources. Their involvement in projects such as the National Natural Science Foundation of China’s major scientific research instrument development project demonstrates their ability to work effectively in multidisciplinary teams and contribute to impactful research initiatives.
