学術論文・著書・解説記事
学術論文
paper 2021
| Role of Intermolecular Interactions in the Catalytic Reaction of Formic Acid on Cu(111) | |
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Small
XX (2021) 2008010 (10 pp.) |
Akitoshi Shiotari, Septia Eka Marsha Putra, Yuichiro Shiozawa, Yuji Hamamoto, Kouji Inagaki, Yoshitada Morikawa, Yoshiaki Sugimoto, Jun Yoshinobu, and Ikutaro Hamada |
| Structure of one-dimensional monolayer Si nanoribbons on Ag(111) | |
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Physical Review Materials
5 (2021) 034002 (6 pp.) |
L. Feng, A. Shiotari, K. Yabuoshi, M. Fukuda, T. Ozaki, and Y. Sugimoto |
paper 2020
| Manipulable Metal Catalyst for Nanographene Synthesis | |
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Nano Letters
20 (2020) 8339–8345 |
A. Shiotari, I. Hamada, T. Nakae, S. Mori, T. Okujima, H. Uno, H. Sakaguchi, Y. Hamamoto, Y. Morikawa, and Y. Sugimoto |
| Intrinsic reconstruction of ice-I surfaces | |
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Science Advances
6 (2020) eabb7986 (6 pp.) |
N. Kawakami, K. Iwata, A. Shiotari, and Y. Sugimoto |
| Small bandgap in atomically precise 17-atom-wide armchair-edged graphene nanoribbons | |
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Communications Materials
1 (2020) 36 (9 pp.) (Selected as one of the editors' favorite papers in 2020) (arXiv:1912.11796) |
J. Yamaguchi, H. Hayashi, H. Jippo, A. Shiotari, M. Ohtomo, M. Sakakura, N. Hieda, N. Aratani, M. Ohfuchi, Y. Sugimoto, H. Yamada, and S. Sato |
| Quality control of on-surface-synthesised seven-atom wide armchair graphene nanoribbons | |
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Nanoscale
12 (2020) 6651–6657 |
A. Ishii, A. Shiotari, and Y. Sugimoto |
| Detection of Spin Transfer from Metal to Molecule by Magnetoresistance Measurement | |
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Nano Letters
20 (2020) 75–80 |
H. Gamou, K. Shimose, R. Enoki, E. Minamitani, A. Shiotari, Y. Kotani, K. Toyoki, T. Nakamura, Y. Sugimoto, M. Kohda, J. Nitta, and S. Miwa |
paper 2019
| Characterization of two- and one-dimensional water networks on Ni(111) via atomic force microscopy | |
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Physical Review Materials
3 (2019) 093001(R) (6 pp.) (Featured in Physics) |
A. Shiotari, Y. Sugimoto, and H. Kamio |
| Realization of spin dependent functionality by covering a metal surface with a single layer of molecules | |
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Nano Letters
19 (2019) 7119–7123 |
H. Isshiki, K. Kondou, S. Takizawa, K. Shimose, T. Kawabe, E. Minamitani, N. Yamaguchi, F. Ishii, A. Shiotari, Y. Sugimoto, S. Miwa, and Y. Otani |
paper 2018
| Torque-Induced Change in Configuration of a Single NO Molecule on Cu(110) | |
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Physical Review Letters
121 (2018) 116101 (6pp.) |
A. Shiotari, T. Odani, and Y. Sugimoto |
| Synthesis, Structures, and Properties of Core-Expanded Azacoronene Analog: A Twisted π-System with Two N-Doped Heptagons | |
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Journal of The American Chemical Society
140 (2018) 10430–10434 |
K. Oki, M. Takase, S. Mori, A. Shiotari, Y. Sugimoto, K. Ohara, T. Okujima, and H. Uno |
| Enhanced resolution imaging of ultrathin ZnO layers on Ag(111) by multiple hydrogen molecules in a scanning tunneling microscope junction | |
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Physical Review B
97 (2018) 195417 (6pp.) |
S. Liu, A. Shiotari, D. Baugh, M. Wolf, and T. Kumagai |
| Water-NO Complex Formation and Chain Growth on Cu(111) | |
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The Journal of Physical Chemistry C
122 (2018) 8894–8900 |
H. Koshida, S. Hatta, H. Okuyama, A. Shiotari, Y. Sugimoto, and T. Aruga |
| Atomic-scale study of formation of sodium–water complexes on Cu(110) | |
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Physical Chemistry Chemical Physics
20 (2018) 12210–12216 |
A. Shiotari, H. Okuyama, S. Hatta, T. Aruga, and I. Hamada |
| Chiral Discrimination and Manipulation of Individual Heptahelicene Molecules on Cu(001) by Non-Contact Atomic Force Microscopy | |
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The Journal of Physical Chemistry C
122 (2018) 4997–5003 |
A. Shiotari, K. Tanaka, T. Nakae, S. Mori, T. Okujima, H. Uno, H. Sakaguchi, and Y. Sugimoto |
paper 2017
| Strain-induced skeletal rearrangement of a polycyclic aromatic hydrocarbon on a copper surface | |
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Nature Communications
8 (2017) 16089 (8pp.) |
A. Shiotari, T. Nakae, K. Iwata, S. Mori, T. Okujima, H. Uno, H. Sakaguchi, and Y. Sugimoto |
| Ultrahigh-resolution imaging of water networks by atomic force microscopy | |
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Nature Communications
8 (2017) 14313 (7pp.) |
A. Shiotari and Y. Sugimoto |
| Mechanical properties on In/Si(111)-(8×2) investigated by atomic force microscopy | |
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Japanese Journal of Applied Physics
56 (2017) 015701 (4pp.) |
K. Iwata, S. Yamazaki, A. Shiotari, and Y. Sugimoto |
paper 2016
| Local electronic structure, work function, and line defect dynamics of ultrathin epitaxial ZnO layers on a Ag(111) surface | |
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Journal of Physics: Condensed Matter
28 (2016) 494003 (10pp.) |
T. Kumagai, S. Liu, A. Shiotari, D. Baugh, S. Shaikhutdinov, and M. Wolf |
| Role of valence states of adsorbates in inelastic electron tunneling spectroscopy: A study of nitric oxide on Cu(110) and Cu(001) | |
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Physical Review B
94 (2016) 075442 (12pp.) |
A. Shiotari, H. Okuyama, S. Hatta, T. Aruga, M. Alducin, and T. Frederiksen |
| Adsorption and reaction of H2S on Cu(110) studied using scanning tunneling microscopy | |
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Physical Chemistry Chemical Physics
18 (2016) 4541–4546 |
A. Shiotari, H. Okuyama, S. Hatta, T. Aruga, and I. Hamada |
paper 2015
| Real-space characterization of hydroxyphenyl porphyrin derivatives designed for single-molecule devices | |
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RSC Advances
5 (2015) 79152–79156 |
A. Shiotari, Y. Ozaki, S. Naruse, H. Okuyama, S. Hatta, T. Aruga, T. Tamaki, and T. Ogawa |
paper 2014
| Local Characterization of Ultrathin ZnO Layers on Ag(111) by Scanning Tunneling Microscopy and Atomic Force Microscopy | |
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The Journal of Physical Chemistry C
118 (2014) 27428–27435 |
A. Shiotari, B. H. Liu, S. Jaekel, L. Grill, S. Shaikhutdinov, H.-J. Freund, M. Wolf, and T. Kumagai |
| Formation of unique trimer of nitric oxide on Cu(111) | |
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The Journal of Chemical Physics
141 (2014) 134705 (5pp.) |
A. Shiotari, S. Hatta, H. Okuyama, and T. Aruga |
| Configuration change of NO on Cu(110) as a function of temperature | |
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The Journal of Chemical Physics
140 (2014) 214706 (6pp.) |
A. Shiotari, T. Mitsui, H. Okuyama, S. Hatta, T. Aruga, T. Koitaya, and J. Yoshinobu |
| Tip-Enhanced Raman Spectroscopy of Graphene Nanoribbons on Au(111) | |
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The Journal of Physical Chemistry C
118 (2014) 11806–11812 |
A. Shiotari, T. Kumagai, and M. Wolf |
| Role of hydrogen bonding in the catalytic reduction of nitric oxide | |
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Chemical Science
5 (2014) 922–926 |
A. Shiotari, S. Hatta, H. Okuyama, and T. Aruga |
paper 2012
| Nature of hydrogen bonding in hydroxyl groups on a metal surface | |
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Physical Review B
86 (2012) 075432 (4pp.) |
I. Hamada, T. Kumagai, A. Shiotari, H. Okuyama, S. Hatta, and T. Aruga |
| NOの不対電子はCu表面上で生き残るか? | |
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表面科学
33 (2012) 382–387 |
塩足亮隼、北口雄也、奥山弘、八田振一郎、有賀哲也 |
| Modifying current-voltage characteristic of a single molecule junction by isotope substitution: OHOD dimer on Cu(110) | |
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Physical Review B
85 (2012) 204524 (7pp.) |
H. Okuyama, A. Shiotari, T. Kumagai, S. Hatta, T. Aruga, Y. Ootsuka, M. Paulsson, and H. Ueba |
| H-atom Relay Reactions in Real Space | |
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Nature Materials
11 (2012) 167–172 |
T. Kumagai, A. Shiotari, H. Okuyama, S. Hatta, T. Aruga, I. Hamada, T. Frederiksen, and H. Ueba |
paper 2011
| Imaging sequential dehydrogenation of methanol on Cu(110) with a scanning tunneling microscope | |
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The Journal of Chemical Physics
134 (2011) 174703 (4pp.) |
Y. Kitaguchi, A. Shiotari, H. Okuyama, S. Hatta, and T. Aruga |
| Imaging Covalent Bonding between Two NO Molecules on Cu(110) | |
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Physical Review Letters
106 (2011) 156104 (4pp.) |
A. Shiotari, Y. Kitaguchi, H. Okuyama, S. Hatta, and T. Aruga |
著書
book 2018
| 分子力学計測 | |
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In: 日本化学会 編, 「分子アーキテクトニクス(CSJ:31)」;
化学同人, 2018 ISBN:9784759813913 pp. 90–93 (Part II, Chapter 6) |
杉本宜昭,塩足亮隼 |
| Inelastic Electron Tunneling Spectroscopy | |
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In: The Surface Science Society of Japan ed.,
“Compendium of Surface and Interface Analysis”
Springer, Singapore, 2018 ISBN:978-981-10-6156-1 pp. 283–288 (Chapter 46) |
A. Shiotari |
book 2017
| Reactivity of Nitric Oxide on Copper Surfaces: Elucidated by Direct Observation of Valence Orbitals | |
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Springer, Singapore, 2017
ISBN:978-981-10-4581-3 (129pp.) |
A. Shiotari |
解説記事
review 2021
| Adsorption and valence electronic states of nitric oxide on metal surfaces | |
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Surface Science Reports
76 (2021) 100500 (33 pp.) |
A. Shiotari, H. Koshida, and H. Okuyama |
review 2020
| 原子間力顕微鏡を用いた水分子ネットワークの可視化 | |
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低温科学 78 (2020) 71–78 |
杉本宜昭、塩足亮隼 |
review 2018
| 原子間力顕微鏡による水ネットワークの超高分解能観察 | |
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Vacuum and Surface Science(表面と真空)
61 (2018) 215–220 |
塩足亮隼、杉本宜昭 |
review 2017
| 機能性有機分子創成のための分子ひずみを駆使した表面合成法 | |
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機能材料
37号12巻 (2017) 60–67 |
塩足亮隼、中江隆博、宇野英満、坂口浩司、杉本宜昭 |
review 2016
| 超高真空・室温におけるグラフェンナノリボンの探針増強ラマン分光測定 | |
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表面科学
37 (2016) 310–314 |
塩足亮隼、熊谷崇、Martin Wolf |
その他
report 2019
| 「実用顕微評価技術セミナー2019」開催報告 | |
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Vacuum and Surface Science(表面と真空)
62 (2019) 644–645 |
廣瀬靖、近松彰、粉川良平、鷺坂恵介、塩足亮隼、簔原誠人 |
report 2018
| 「実用顕微評価技術セミナー2018」開催報告 | |
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Vacuum and Surface Science(表面と真空)
61 (2018) 739 |
鷺坂恵介、粉川良平、塩足亮隼、簔原誠人 |