- [CBE Seminar] Prof. Masahiko Hara (Tokyo Institute of Technology) Mar. 15, 10:00
- 관리자 |
- 2019-03-12 09:17:07|
- 6100
안녕하세요,
생명화학공학과에서는 도쿄공업대학 Masahiko Hara 교수님을 모시고 아래와 같이 세미나를 개최하오니
많은 관심과 참여 부탁드립니다.
Please come and join the seminar. Find the details below.
◥ Speaker: Prof. Masahiko Hara (Tokyo Institute of Technology)
◥ Schedule: March 15(Fri), 2019 / 10:00
◥ Place: Seminar room 1 (#1101) @ W1-3 Bldg.
◥ Title: Nano-Spectroscopic Studies of Chemical Evolution at Interfaces – Ultimate Self-Assembly and Origins of Life –
◥ Abstract:
The origin of life, though it remains a mystery, is believed to have been chemical reactions at mineral surfaces on the earth during the Hadean period. Although there have been many proposals and preliminary experiments on this topic, no definitive origin has been reported yet because of a lack of nanoscopic studies. Herein, we present the first material surface observations intended to elucidate the origin of life at the molecular level. These observations were made using a combination of novel techniques, specifically, Raman spectroscopy and atomic force microscopy (AFM). Pyrite (FeS2) is known to be one of the most common minerals that can provide condensation and reaction surfaces for chemical evolution. However, this mineral has mostly been studied from a crystallographic viewpoint or in bulk systems, and such investigations cannot fully resolve the exact mechanisms of the specific interactions that occur on this mineral. Moreover, no direct experimental evidence has been reported regarding pyrite initiating chemical evolution at the nano-scale when it is used as a reaction surface. In this study, the quantitative force analysis performed by using AFM, in which the residue of a single amino acid was mounted on AFM tips, enabled us to locate the reaction sites and to study the interaction forces between the amino acid and the pyrite surface. Our Raman spectroscopy and AFM results revealed for the first time that defective areas, with the molecular composition FeS2-x, increase the adsorption probabilities of amino acid residues in chemical reactions on the surface of pyrite. Keyword: Nanotechnology, Scanning Probe Microscopy, Atomic Force Microscopy (AFM), Raman Spectroscopy, Self-Assembly, Bio-Interface, Chemical Evolution, and Origins of Life.
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