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2017A, 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 2017A0901 A systematic use of the advanced synchrotron light source for understanding functional mechanisms of nano-spin devices:BL39XU Daichi Chiba The University of Tokyo Japan Educational Organization Materials Science and Engineering 20.625 BL39XU Np
2 2017A0902 A systematic use of the advanced synchrotron light source for understanding functional mechanisms of nano-spin devices:BL25SU Daichi Chiba The University of Tokyo Japan Educational Organization Materials Science and Engineering 20.875 BL25SU Np
3 2017A0903 Development of nano-spin device materials accelerated by advanced synchrotron analyses Ko Mibu Nagoya Institute of Technology Japan Educational Organization Materials Science and Engineering 15 BL13XU Np
4 2017A0904 Development of nano-spin device materials accelerated by advanced synchrotron analyses Ko Mibu Nagoya Institute of Technology Japan Educational Organization Materials Science and Engineering 15 BL08W Np
5 2017A0905 A systematic use of the advanced synchrotron light source for understanding functional mechanisms of nano-spin devices:BL17SU Daichi Chiba The University of Tokyo Japan Educational Organization Materials Science and Engineering 6 BL17SU Np
6 2017A0906 Development of nano-spin device materials accelerated by advanced synchrotron analyses Ko Mibu Nagoya Institute of Technology Japan Educational Organization Materials Science and Engineering 12 BL09XU Np
7 2017A0907 A systematic use of the advanced synchrotron light source for understanding functional mechanisms of nano_spin devices: BL47XU Daichi Chiba The University of Tokyo Japan Educational Organization Materials Science and Engineering 9 BL47XU Np
8 2017A0908 Iron oxidation at a solid-liquid interface Yusuke Wakabayashi Osaka University Japan Educational Organization Materials Science and Engineering 6 BL13XU Np
9 2017A0909 Structure of solid-liquid interface and material transport dynamics during atmospheric corrosion of steel Takashi Doi NIPPON STEEL & SUMITOMO METAL CORPORATION Japan Industry Industrial Applications 6 BL27SU Np
10 2017A0910 Study on solid-liquid interfacial structure of supported metal cluster catalysts Seiji Yamazoe The University of Tokyo Japan Educational Organization Materials Science and Engineering 14.625 BL01B1 Np
11 2017A0911 Depth profile of ion/solute distribution and their chemical states at solid/liquid interface probed by soft X-ray absorption spectroscopy Yoshihisa Harada The University of Tokyo Japan Educational Organization Materials Science and Engineering 9 BL27SU Np
12 2017A0912 Structure of solid-liquid interface and material transport dynamics during atmospheric corrosion of steel Takashi Doi NIPPON STEEL & SUMITOMO METAL CORPORATION Japan Industry Industrial Applications 5.875 BL04B2 Np
13 2017A0913 Depth profile of ion/solute distribution and their chemical states at solid/liquid interface probed by soft X-ray absorption spectroscopy Yoshihisa Harada The University of Tokyo Japan Educational Organization Materials Science and Engineering 9 BL47XU Np
14 2017A0914 Structural analysis of metal nanoparticles stabilized by hyperbranched polymer supports using hard x-ray XAFS Junichi Nakajima Nissan Chemical Industries, Ltd. Japan Industry Industrial Applications 6 BL01B1 Np
15 2017A0915 Structural analysis of metal nanoparticles stabilized by hyperbranched polymer supports using high energy x-ray diffraction Junichi Nakajima Nissan Chemical Industries, Ltd. Japan Industry Industrial Applications 3 BL04B2 Np
16 2017A0916 Structural analysis of metal nanoparticles stabilized by hyperbranched polymer supports using soft x-ray XAFS Junichi Nakajima Nissan Chemical Industries, Ltd. Japan Industry Industrial Applications 6 BL27SU Np