logo

korean english

게시판

Home > 게시판 > 세미나

이번 학기 콜로퀴움은 학교의 권고를 따라, 사회적 거리두기 단계와 연계하여 온라인 혹은 오프라인(온라인 방송 병행)으로 운영될 예정입니다.

아홉번째 강연에는 성균관대학교 나노구조물리연구단의 허채정 박사님을 모시고 콜로퀴움을 개최하오니, 학과 구성원 여러분의 많은 참여를 부탁 드립니다.

코로나19 확산방지를 위해 다과는 제공하지 않습니다.


                                     
            

1. Title: When Physics meets the Living Cells


2. Speaker: 허   채   정  박사님
(성균관대학교 나노구조물리연구단)


3. Date & Time: Nov. 18. (Wed.) 2020.  4:30 PM


4. Place: Natural Science 1,  Room No. 31214


5. Abstract: This presentation will focus on the biophysical approaches to cell biology and neurobiology. Nano-neuroscience research field is an emerging research area and is required highly interdisciplinary research tools and applications. I will introduce various methodologies and experimental results from cells (in vitro) to brain (in vivo) and further introduce the practical usage to detect disease. For example, to diagnosis Alzheimer's disease (AD), biophysical approach can give a new insight to detect and monitor for the progression of AD severity stages. Far over the 100 years since the first AD patient observation in Germany, we have no reliable diagnostics or therapeutic tools even though innumerable researchers have extensively searched for diagnostic methods and therapeutic approaches in biomedical and pharmaceutical fields for a century. Nano sized Aβ protein represents a toxic protein in AD brain and its progressive accumulation leads to neuronal cell loss, neurogenesis impairment, dysfunctional cognitive activity, and dementia, resulting in death. Therefore, diagnosis of AD is strongly correlated with Aβ protein as a form of monomer, oligomer, and fibril is a primary concern to monitor the progressive stage of AD patient prior to further therapy. Our goal is discovering the first, precise, simple diagnostic methodology for dementia through the biophysical approach based on the nanotechnology. Therefore, we have been conducting the biophysical property monitoring for dynamic changes of evolving from monomer and oligomer reaches to fibrillar state in vitro as well as in situ conditions. Additionally, I will introduce our laboratory, Brainics lab., and recent research project with scientific vision.

번호 제목 날짜 조회 수
공지 <12/8(Thu.) 11:00am>노벨상 소개 강연 - 2016년 노벨 물리학상: 위상 응집 물리의 탄생 2016.11.28 1057357
682 2022학년도 2학기 콜로퀴움 일정 2022.06.22 752
681 <July 8(Fri.)>Intertwined magnetism and charge density wave in a kagome metal 2022.06.03 883
680 <May 18(Wed.)>Magnetoresistance and Hall effects of Fe5Sn3 single crystals 2022.05.12 1110
679 <Apr. 27(Wed.)> I) A few first questions by me. II) ‘Topotactic resistance switching RAM’의 최초 발견 2022.04.20 1120
678 <May 11(Wed.)>Key Nuclear Experimental Studies to Find the Origin of Elements 2022.05.04 1195
677 <May 4(Wed.)>Recent progress in the study of topological phases of matter 2022.04.27 1199
676 <Apr. 20(Wed.)> 반도체 공정용 플라즈마 물리 2022.04.14 1240
675 <May. 10(Tue.)>Longitudinal magnon decay in the quasi-two-dimensional antiferromagnet in Ba2FeSi2O7 2022.05.09 1262
674 <May. 3(Tue.)>Anomalous Hall signatures of nonsymmorphic nodal lines in the doped chromium chalcospinel CuCr2Se4 2022.04.19 1380
673 <Mar. 30(Wed.)> Two-dimensional Semiconductors and their applications 2022.03.23 1588
672 <Mar. 16(Wed.)> 현세대/차세대 이차전지 기술 동향 및 전망 2022.03.02 1625
671 <Apr. 6(Wed.)> Holographic Flat Panel Displays 2022.03.30 1761
670 <Mar. 2(Wed.)>Introduction to high-energy nuclear physics 2022.02.24 2090
669 <Jan. 27(Thu.)>Emulating twisted double bilayer graphene with a multiorbital optical lattice 2022.01.18 2273
668 <Mar. 23(Wed.)> Next-generation artificial intelligence devices and physics 2022.03.16 2779
667 <Nov. 17(Wed.)>펜로즈의 삼각형과 블랙홀 - 부분과 전체 2021.11.11 4017
666 <Sep. 15(Wed.)> 강화학습 - 시행착오를 통해 배워나가는 인공지능 2021.09.08 4998
665 <Oct. 6(Wed.)> 블랙홀에서 쌍꺼풀수술까지 2021.09.29 5748
664 <Nov. 29(Mon.)>Exploring light-matter interactions at atomic scale using electron microscopy 2021.11.22 6504
663 <Nov. 10(Wed.)>Optical Spectroscopy of 2-Dimensional Materials 2021.11.03 7240