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Dr. Tae Geol Lee | Nano Safety Assessment | Best Researcher Award

Principal ResearcherĀ at Korea Research Institute of Standards and Science, South Korea
Summary:

Dr. Tae Geol Lee is a prominent figure in nanosafety research, known for his contributions to the evaluation of nanomaterial toxicity and environmental impact. As a Principal Research Scientist at KRISS, he develops measurement standards and certified reference materials crucial for nanomaterial safety assessments. Dr. Lee’s innovative approaches in organoid-based toxicity studies and real-time imaging have advanced the field, ensuring the safety of nanomaterials on a global scale. His collaborations with international organizations, including the U.S. FDA, underscore his commitment to establishing globally recognized safety protocols, enhancing Koreaā€™s role in the international nanotechnology landscape.

Professional Profile:

šŸ‘©ā€šŸŽ“Education:

Dr. Tae Geol Lee holds advanced degrees in Nanotechnology and Environmental Sciences, having completed his Ph.D. in Nanomaterials Safety Evaluation. His academic journey provided a solid foundation in nanomaterials science, environmental impact analysis, and toxicology, equipping him with the skills needed to excel in nanosafety research and measurement standards.

šŸ¢ Professional Experience:

Dr. Tae Geol Lee is a Principal Research Scientist at the Korea Research Institute of Standards and Science (KRISS), where he leads the Nano-bio Measurement Group. He has extensive expertise in the safety evaluation of nanomaterials, focusing on their toxic mechanisms and environmental impacts. Dr. Lee’s work involves developing standard certified nanomaterials, real-time imaging techniques, and concentration analysis systems. His efforts include organoid-based human toxicity studies and research on microbial environmental toxicity. Dr. Lee collaborates with global institutions, including the U.S. FDA, to establish internationally recognized safety standards for nanomaterials, positioning KRISS as a leader in nanosafety research.

Research Interests:

Dr. Lee’s research interests encompass nanomaterial safety evaluation, toxicity mechanisms of nanomaterials in humans and the environment, development of standard certified nanomaterials for toxicity testing, real-time nanomaterial imaging and analysis, and nano- and microplastic risk assessments. His work aims to enhance the understanding of nanomaterials’ safety and promote their responsible use in industry.

Author Metrics:

  • Citation Index (h-index): 39
  • Notable Publications: Dr. Lee has published extensively in high-impact journals such as Journal of Controlled Release, Nano Today, and Nano Letters. His recent work includes studies on ROS-responsive nanoparticles for retinal diseases and AI-based evaluation of graphene oxide reduction.
  • Patents: Dr. Lee holds several patents, including those related to organic matter measurement in blood, Raman-active nanoparticles, and nanoplasmonic sensors for biomolecule analysis, showcasing his innovative contributions to nanotechnology and biomedical applications.

Dr. Leeā€™s dedication to developing robust safety evaluation protocols for nanomaterials has significantly influenced the establishment of international safety standards, supporting Koreaā€™s efforts to lead in nanotechnology innovation and export opportunities.

Top Noted Publication:

  • Oneā€step modification of superhydrophobic surfaces by a musselā€inspired polymer coating
    Journal: Angewandte Chemie International Edition
    Authors: SM Kang, I You, WK Cho, HK Shon, TG Lee, IS Choi, JM Karp, H Lee
    Details: This influential study demonstrates a novel one-step approach to modify surfaces with superhydrophobic properties using a mussel-inspired polymer coating technique. The research highlights the versatility and efficacy of the coating, providing a simple method for creating superhydrophobic surfaces for various applications.
    Citations: 488 (2010)
  • Size, surface charge, and shape determine therapeutic effects of nanoparticles on brain and retinal diseases
    Journal: Nanomedicine: Nanotechnology, Biology and Medicine
    Authors: DH Jo, JH Kim, TG Lee, JH Kim
    Details: This paper explores how the physical properties of nanoparticles, such as size, surface charge, and shape, influence their therapeutic effects on brain and retinal diseases. The findings offer valuable insights into optimizing nanoparticle design for targeted treatments.
    Citations: 441 (2015)
  • Raman study of D band in graphene oxide and its correlation with reduction*
    Journal: Applied Surface Science
    Authors: AY Lee, K Yang, ND Anh, C Park, SM Lee, TG Lee, MS Jeong
    Details: This study investigates the D* band in graphene oxide through Raman spectroscopy and examines its correlation with reduction processes. The research contributes to the understanding of structural changes in graphene oxide during chemical modifications.
    Citations: 345 (2021)
  • The inhibition of retinal neovascularization by gold nanoparticles via suppression of VEGFR-2 activation
    Journal: Biomaterials
    Authors: JH Kim, MH Kim, DH Jo, YS Yu, TG Lee, JH Kim
    Details: This research demonstrates that gold nanoparticles can inhibit retinal neovascularization by suppressing VEGFR-2 activation, presenting a potential therapeutic approach for treating retinal diseases involving abnormal blood vessel growth.
    Citations: 165 (2011)
  • Antiangiogenic effect of silicate nanoparticle on retinal neovascularization induced by vascular endothelial growth factor
    Journal: Nanomedicine: Nanotechnology, Biology and Medicine
    Authors: DH Jo, JH Kim, YS Yu, TG Lee, JH Kim
    Details: The study investigates the antiangiogenic properties of silicate nanoparticles on retinal neovascularization, specifically targeting vascular endothelial growth factor (VEGF)-induced pathways, offering new insights into nanoparticle-based therapeutic strategies.
    Citations: 121 (2012)

Conclusion:

Dr. Tae Geol Leeā€™s extensive contributions to nanosafety research, his innovative methodologies, and his global collaborations make him a strong candidate for the Best Researcher Award. His work addresses crucial challenges in the field of nanotechnology, ensuring that new materials are safe for human health and the environment. By expanding his research to include broader applications and increasing his involvement in policy and public education, Dr. Lee could further elevate his already impressive impact. Overall, his achievements position him as a leading researcher whose work has significantly influenced nanosafety standards worldwide.

 

 

 

Tae Geol Lee | Nano Safety Assessment | Best Researcher Award

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