2019A, Epoch-making Initiatives Proposals

CONTACT: SPring-8 Users Office; E-mail: sp8jasri@spring8.or.jp

S/N	Proposal Number	Proposal Title	Project Leader	Affiliation	Country	Affiliation Category	Research Category	Shift	Beamline	Proprietary(P)/ Non-proprietary(Np)
1	2019A0921	Initiative study of microscopic magnetic properties for nano-spin devices led by the use of advanced synchrotron light source	Ko Mibu	Nagoya Institute of Technology	Japan	Educational Organization	Materials Science and Engineering	14.875	BL08W	Np
2	2019A0922	Initiative study of microscopic magnetic properties for nano-spin devices led by the use of advanced synchrotron light source	Ko Mibu	Nagoya Institute of Technology	Japan	Educational Organization	Materials Science and Engineering	12	BL09XU	Np
3	2019A0923	Initiative study for nano-spin devices led by the use of advanced synchrotron light source :BL17SU	Daichi Chiba	Osaka University	Japan	Educational Organization	Materials Science and Engineering	6	BL17SU	Np
4	2019A0924	Initiative study for nano-spin devices led by the use of advanced synchrotron light source :BL25SU	Daichi Chiba	Osaka University	Japan	Educational Organization	Materials Science and Engineering	11.875	BL25SU	Np
5	2019A0925	Initiative study for nano-spin devices led by the use of advanced synchrotron light source :BL39XU	Daichi Chiba	Osaka University	Japan	Educational Organization	Materials Science and Engineering	12	BL39XU	Np
6	2019A0926	Initiative study of electronic and crystallographic properties in nano-spin devices led by the use of advanced synchrotron light source:BL09XU	Masaki Mizuguchi	Tohoku University	Japan	Educational Organization	Materials Science and Engineering	9	BL09XU	Np
7	2019A0927	Initiative study of electronic and crystallographic properties in nano-spin devices led by the use of advanced synchrotron light source:BL13XU	Masaki Mizuguchi	Tohoku University	Japan	Educational Organization	Materials Science and Engineering	9	BL13XU	Np
8	2019A0930	Initiative study of ultrafast dynamics for nano-spin devices led by the use of advanced synchrotron light source	Satoshi Okamoto	Tohoku University	Japan	Educational Organization	Materials Science and Engineering	9	BL25SU	Np
9	2019A0931	Initiative study of ultrafast dynamics for nano-spin devices led by the use of advanced synchrotron light source	Satoshi Okamoto	Tohoku University	Japan	Educational Organization	Materials Science and Engineering	8.375	BL39XU	Np
10	2019A0935	Initiative study for nano-spin devices led by the use of advanced synchrotron light source :BL01B1	Daichi Chiba	Osaka University	Japan	Educational Organization	Materials Science and Engineering	9	BL01B1	Np
11	2019A0936	Initiative study of electronic and crystallographic properties in nano-spin devices led by the use of advanced synchrotron light source:BL37XU	Masaki Mizuguchi	Tohoku University	Japan	Educational Organization	Materials Science and Engineering	12.875	BL37XU	Np
12	2019A0938	Time evolution of the passivation layer at iron and iron alloy surfaces	Yusuke Wakabayashi	Tohoku University	Japan	Educational Organization	Materials Science and Engineering	11.875	BL13XU	Np
13	2019A0939	Depth distribution and electronic state of water and solute at solid-liquid interface analysed by hard X-ray photoelectron spectroscopy	Kosuke Yamazoe	The University of Tokyo	Japan	Educational Organization	Chemical Science	12	BL47XU	Np
14	2019A0940	Structure of solid-liquid interface and material transport dynamics during atmospheric corrosion of steel	Takashi Doi	Nippon Steel Corporation	Japan	Industry	Industrial Applications	12	BL27SU	Np
15	2019A0941	Structural analysis of metal nanoparticles stabilized by hyperbranched polymer supports using hard X-ray XAFS	Junichi Nakajima	Nissan Chemical Corporation	Japan	Industry	Industrial Applications	3	BL01B1	Np
16	2019A0942	Structural analysis of metal nanoparticles stabilized by hyperbranched polymer supports using soft X-ray XAFS	Junichi Nakajima	Nissan Chemical Corporation	Japan	Industry	Industrial Applications	6	BL27SU	Np
17	2019A0943	Analysis of electroless plating reaction by time-resolved XAFS	Junichi Nakajima	Nissan Chemical Corporation	Japan	Industry	Industrial Applications	6	BL28B2	Np
18	2019A0944	Metal-support interface of metal cluster catalysts	Hiroyuki Asakura	Kyoto University	Japan	Educational Organization	Chemical Science	9	BL01B1	Np
19	2019A0945	Metal-support interface of metal cluster catalysts	Hiroyuki Asakura	Kyoto University	Japan	Educational Organization	Chemical Science	6	BL37XU	Np
20	2019A0947	XAS-based Initiative for the Future Flow Synthetic Technology	Hikaru Takaya	Kyoto University	Japan	Educational Organization	Chemical Science	3	BL20XU	Np
21	2019A0948	XAS-based Initiative for the Future Flow Synthetic Technology	Hikaru Takaya	Kyoto University	Japan	Educational Organization	Chemical Science	6	BL40XU	Np
22	2019A0949	Realtime observation of structural change of interface between substrate, metallic species, and supports of automobile exhaust catalysts	Hiroyuki Asakura	Kyoto University	Japan	Educational Organization	Chemical Science	9	BL14B2	Np
23	2019A0950	XAS-based Initiative for the Future Flow Synthetic Technology	Hikaru Takaya	Kyoto University	Japan	Educational Organization	Chemical Science	8.875	BL14B2	Np
24	2019A0951	Structure of solid-liquid interface and material transport dynamics during atmospheric corrosion of steel	Takashi Doi	Nippon Steel Corporation	Japan	Industry	Industrial Applications	9	BL04B2	Np

SPring-8, the large synchrotron radiation facility

Personal tools

Navigation

2019A, Epoch-making Initiatives Proposals