2017B Epoch-making Initiatives Proposals
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| S/N | Proposal Number | Proposal Title | Project Leader | Affiliation | Country | Affiliation Category | Research Category | Shift | Beamline | Proprietary(P)/ Non-proprietary(Np) |
| 1 | 2017B0908 | Time evolution of the passivation layer at iron and iron alloy surfaces | Yusuke Wakabayashi | Osaka University | Japan | Educational Organization | Materials Science and Engineering | 12 | BL13XU | Np |
| 2 | 2017B0909 | 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 | 8 | BL27SU | Np |
| 3 | 2017B0910 | Study on solid-liquid interfacial structure of supported metal cluster catalysts | Seiji Yamazoe | Tokyo Metropolitan University | Japan | Educational Organization | Materials Science and Engineering | 15 | BL01B1 | Np |
| 4 | 2017B0912 | 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 | 9 | BL04B2 | Np |
| 5 | 2017B0913 | 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 | 8.875 | BL47XU | Np |
| 6 | 2017B0914 | 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 |
| 7 | 2017B0916 | 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 | 5.625 | BL27SU | Np |
| 8 | 2017B0918 | Study on solid-liquid interfacial reaction of metal clusters in liquid phase | Seiji Yamazoe | Tokyo Metropolitan University | Japan | Educational Organization | Materials Science and Engineering | 12 | BL28B2 | Np |
| 9 | 2017B0919 | Study on solid-liquid interfacial structure of metal cluster catalysts | Seiji Yamazoe | Tokyo Metropolitan University | Japan | Educational Organization | Materials Science and Engineering | 9 | BL37XU | Np |
| 10 | 2017B0920 | 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 | 6 | BL08W | Np |
| 11 | 2017B0921 | 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 | 15 | BL08W | Np |
| 12 | 2017B0922 | 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 |
| 13 | 2017B0923 | Initiative study for nano-spin devices led by the use of advanced synchrotron light source :BL17SU | Daichi Chiba | The University of Tokyo | Japan | Educational Organization | Materials Science and Engineering | 6 | BL17SU | Np |
| 14 | 2017B0924 | Initiative study for nano-spin devices led by the use of advanced synchrotron light source :BL25SU | Daichi Chiba | The University of Tokyo | Japan | Educational Organization | Materials Science and Engineering | 12 | BL25SU | Np |
| 15 | 2017B0925 | Initiative study for nano-spin devices led by the use of advanced synchrotron light source :BL39XU | Daichi Chiba | The University of Tokyo | Japan | Educational Organization | Materials Science and Engineering | 18 | BL39XU | Np |
| 16 | 2017B0926 | 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 | 12 | BL09XU | Np |
| 17 | 2017B0927 | 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 | 11.375 | BL13XU | Np |
| 18 | 2017B0928 | Initiative study of electronic and crystallographic properties in nano-spin devices led by the use of advanced synchrotron light source:BL25SU | Masaki Mizuguchi | Tohoku University | Japan | Educational Organization | Materials Science and Engineering | 6 | BL25SU | Np |
| 19 | 2017B0929 | Initiative study of electronic and crystallographic properties in nano-spin devices led by the use of advanced synchrotron light source: BL47XU | Masaki Mizuguchi | Tohoku University | Japan | Educational Organization | Materials Science and Engineering | 8.625 | BL47XU | Np |
| 20 | 2017B0930 | Initiative study of ultra-fast 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 | 6 | BL25SU | Np |
| 21 | 2017B0931 | Initiative study of ultra-fast 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 | 6 | BL39XU | Np |