Seoul National Univ. DMSE
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Seminar & Colloquium

Seminar & Colloquium
[콜로퀴움: 5월 24일(수), 오후 5시] Prof. Kwanghun Chung, Massachusetts Institute of Technology

[콜로퀴움: 5월 24일(수), 오후 5시] Prof. Kwanghun Chung, Massachusetts Institute of Technology

 

Title

인류의 건강한 삶을 위해 어떻게 바이오 이미징을 혁신할 수 있을까? 

(Revolutionizing bioimaging to elevate human health)

 

Speaker

Prof. Kwanghun Chung, Department of Chemical Engineering, Massachusetts Institute of Technology

 

Education & Training

- 2010 ~ 2013 BWF CASI Postdoctoral Fellow, School of Medicine, Bioengineering Department, Stanford University

- 2009 ~ 2010 Postdoctoral Fellow, School of Chemical & Biomolecular Engineering, Georgia Institue of Technology

- 2009. 7 Doctor of Philosophy in Chemical & Biomolecular Engineering, Georgia Institue of Technology

- 2005. 8 Bachelor of Science in Chemical Engineering, magna cum laude, Seoul National University

 

Position & Employment

- 2019. 7 ~ Associate Professor of Dept. of Chemical Engineering and Institute for Medical Engineering and Science, MIT

- 2015. 5 ~ 2018. 5 Samuel A. Goldblith Career Development Assistant Professor of Institute for Medical Engineering and Science, MIT

- 2013. 10 ~ 2015. 4 Helmholtz Career Development Professor of Institute for Medical Engineering and Science, MIT

- 2013. 10 ~ 2019. 6 Assistant Professor of Dept. of Chemical Engineering, MIT

- 2013. 10 ~ Principal Investigator of Picower Institute for Learning and Memory, MIT

 

 

| Date | Wednesday, May 24th, 2023

| Time | 17:00 ~ 

| Venue | #201, Bldg. 43-1 (43-1동 201호)

          온라인 강의 (https://snu-ac-kr.zoom.us/j/7952699081)

          회의 ID : 795 269 9081

 

 ** 줌링크는 외부 교수님들과 코로나로 인해 들어오지 못하는 학생들을 위한 줌 주소입니다.  재료콜로퀴엄 수강생들은 대면으로 참석하셔야합니다. 

 

[Abstract]

Holistic imaging of diverse functional, anatomical, and molecular architecture that span multiple levels, from cells to an entire system, remains a major challenge in biology. In this talk, I will introduce a series of technologies that enable integrated multiscale imaging and molecular phenotyping of both animal tissues and human clinical samples. I will discuss how we engineer (1) the physicochemical properties of biological tissues, (2) molecular interactions, and (3) molecular transport all together to achieve integrated organ-wide 3D molecular analysis at unprecedented speed and resolution. I will also discuss how these tools can be deployed synergistically to study a broad range of biological questions. We hope that these new technologies will accelerate the pace of discovery in biomedical research.

 

| Host | 유웅열 교수 (02-880-9096)

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