Lang Li | Bio-Optical Sensing | Best Researcher Award

Dr. Lang Li is an Associate Professor at the Department of Cell Biology, Army Medical University 🇨🇳. Recognized as a Bayu Young Scholar and military scientific talent 🌟, he is deeply involved in vascular disease research, focusing on organ chips, stem cell therapy, and bio-optical sensing 🧠💉. He has published 15 SCI-indexed papers in top journals like Science Advances and Small 📚, holds two national patents 🧾, and manages over 2 million yuan in active research funding 💰. A member of several national academic and industry committees, he is a rising leader in regenerative medicine and biomedical innovation ⚕️🔬.

Publication Profiles

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 Education & Experience 

• 🎓 Ph.D. in Cell Biology – Army Medical University

• 🏫 Associate Professor – Department of Cell Biology, Army Medical University (since promotion)

• 🧪 Postdoctoral Research – Focused on vascular regeneration and neurovascular systems

• 🧬 Researcher – Leading roles in national and military biomedical projects

• 🧑‍🏫 Educator and Mentor – Guiding young scholars in advanced biomedical techniques

Suitability for the Award

Dr. Lang Li, Associate Professor at the Department of Cell Biology, Army Medical University, stands out as a dynamic and visionary candidate for the Best Researcher Award. Recognized for his trailblazing research in vascular disease diagnosis, treatment, and regeneration, Dr. Li has combined bio-optical sensing, stem cell therapy, and organ-on-chip technologies to create impactful, interdisciplinary innovations that align with both national medical priorities and cutting-edge scientific advancement.

 Professional Development

Dr. Lang Li has demonstrated exceptional growth as a biomedical scientist through active engagement in top-tier research projects, professional societies, and interdisciplinary platforms 📊🔬. As an executive committee member in photoelectronics and new materials alliances, he bridges the gap between biology and technology 🤝💡. His continuous participation in forums and editorial responsibilities for Acta Anatomica Sinica 📖 shows his dedication to academic excellence and knowledge sharing. Dr. Li also mentors early-career scientists and contributes to strategic military medical research, proving his commitment to national innovation and medical development 🎖️🧠.

 Research Focus 

Dr. Lang Li’s research primarily targets the diagnosis, treatment, and regeneration of vascular diseases and injuries 🫀🧠. His interdisciplinary approach integrates organ-on-a-chip technology, bio-optical sensing, stem cell therapy, and neurovascular unit regulation 🧬💡. These cutting-edge methodologies aim to replicate physiological conditions for better diagnostics and therapeutic interventions. Dr. Li is particularly passionate about translating lab research into clinical and military applications 🚑⚔️. His work stands at the intersection of biomedical engineering, regenerative medicine, and neurobiology, making meaningful strides in tackling complex vascular conditions and tissue regeneration challenges 🔬💊.

 Awards & Honors 

• 🧑‍🔬 Scientist Discovery Award – 3rd Flexible Optoelectronic Materials and Intelligent Sensing Development Forum

• 🧠 Bayu Young Scholar – Recognized academic talent in Southwest China

• 🎖 Military Young Scientific and Technological Talent – Awarded by Army Medical University

• ❤️ Red Medical Talent Pool – Army Medical University distinction

• 🌟 Southwest Hundred Young Academic Talent – Regional academic recognition

• 🧪 Member, Youth Working Committee – Chinese Anatomical Society

• 🌐 Member, Trauma Medicine Branch – China Association for International Medical Exchange

• 🧠 Young Editorial Member – Acta Anatomica Sinica

• 🔬 Executive Director – China Photoelectronic Industry Platform & New Materials Development Alliance

Publication Top Noted

• 2025 – Mesenchymal Stem Cell-Derived Mitochondrial Transfer Promotes Tip Cell Phenotype via Glutathione Metabolic Reprogramming in Stroke Mice, ACS Nano 🧠🧬

• 2025 – Artificial Biomarker-based Feedback-regulated Personalized Precise Thrombolysis with Lower Hemorrhagic Risk, Science Advances 🩸🧠

• 2024 – Microporous Microneedles Integrated with CAR‐TREM2‐Macrophages for Scar Management by Regulating Fibrotic Microenvironment, Advanced Materials 🧫🧩

• 2024 – Ultrasound-Responsive Theranostic Platform for Timely Monitoring and Efficient Thrombolysis in tPA-Resistant Thrombi, Nature Communications 🔊🧪

• 2024 – Composite Materials Combined with Stem Cells Promote Kidney Repair and Regeneration, Composites Part B: Engineering 🧱🧫

• 2023 – Engineered Exosomes Reprogram Gli1⁺ Cells to Prevent Calcification of Vascular Grafts and Pathological Vessels, Science Advances 💉🧠

• 2022 – Water-Dispersed CsPbBr₃ Nanocrystals for High-Precision Single Molecule Localization Microscopy, Nanoscale 🔬💡

• 2022 – Wearable SERS Sensor Based on Omnidirectional Plasmonic Nanovoids Array with Ultra‐High Sensitivity, Small ⌚🧿