Asakura Laboratory, Catalyst Surface Research Division, Institute for Catalysis, Hokkaido University
- Synchrotron XAFS and nano-scope MICROSCOPY -
(1) Hou, Y.; Nagamatsu, S.; Asakura,
K.; Fukuoka, A.; Kobayashi, H., Trace Mono-Atomically Dispersed Rhodium on
Zeolite-Supported Cobalt Catalyst for the Efficient Methane Oxidation. Commun. Chem. 2018, 1, 41.
(2) Takakusagi,
S.; Iwasawa, Y.; Asakura, K., Premodified Surface
Method to Obtain Ultra-Highly Dispersed Metals and Their 3d Structure Control
on an Oxide Single-Crystal Surface. The Chemical Record 2018, 0.
(3) Sirisit, N.; Kido, D.; Wakisaka, Y.; Ariga-Miwa, H.;
Takakusagi, S.; Asakura, K.; Sekizawa, O.; Sakata, T.; Uruga, T.; Iwasawa, Y.,
Evidence for Multi-Atom Resonance X-Ray Raman Spectroscopy &Mdash; an in situ Low Z-Element and Bond-Specific X-Ray
Spectroscopy. e-J Surf.Sci.Nanotech.
2018, 16, 387-390.
(4) Zhang, J.; Nagamatsu, S.; Du, J.; Tong, C.; Fang, H.; Deng, D.; Liu,
X.; Asakura, K.; Yuan, Y., A Study of Fenx/C
Catalysts for the Selective Oxidation of Unsaturated Alcohols by Molecular
Oxygen. J Catal 2018, 367, 16-26.
(5) Asakura, K.; Abe, H.; Kimura, M., The Challenge of
Constructing an International Xafs Database. J.Synchro.Rad 2018,
25, 967-971.
(6) Yuan, Q.; Wakisaka, Y.; Uemura, Y.; Wada, T.;
Ariga-Miwa, H.; Takakusagi, S.; Asakura, K.; Brankovic, S. R., Revisit of Pt
Deposition Via Surface Limited Redox Replacement of Copper Upd
Layer on Au(111) by EXAFS. J.Phys,Chem, C. 2018, 122,
16664-16673.
(7) Sarode, P. R.; Asakura, K.;
Priolkar, K. R.; Hegde, M.
S., EXAFS Study of Ti0.98Pd0.02O2-Δ Catalyst. AIP Conference Proceedings 2018,
1953, 070009.
(8) Wakisaka, Y., et al., A Demonstration of Pt L3-Edge Exafs Free from Au L3-Edge Using Log–Spiral Bent Crystal
Laue Analyzers. Catalysts 2018, 8, 204.
(9) Kato, M., et al., Incorporation of Multinuclear
Copper Active Sites into Nitrogen-Doped Graphene for Electrochemical Oxygen
Reduction. ACS Appl. Ener. Mate. 2018, 1,
2358-2364.
(10) Wakisaka, Y., et al., Development of Surface
Fluorescence X-Ray Absorption Fine Structure Using a Laue-Type Monochromator
and Its Application to Sub-Monolayer-Coverage Surface in Solution. The
Chemical Record 2018, 18.
(11) Lyu, H., et al., An
Al-Doped Srtio3 Photocatalyst Maintaining Sunlight-Driven Overall Water
Splitting Activity for over 1000 h of Constant Illumination. Chemical
Science 2019, 10, 3196-3201.
(12) Fujikawa, T.; Asakura, K.;
Kogo, J.; Niki, K.; Rehr, J. J., Theory of Multi-Atom Resonant Raman
Scattering. J Electron Spectrosc 2019, 233,
57-63.
(13) Inami, Y.; Ogihara, H.; Nagamatsu, S.;
Asakura, K.; Yamanaka, I., Synergy of Ru and Ir in
the lectrohydrogenation of Toluene to Methylcyclohexane on a Ketjenblack-Supported
Ru-Ir Alloy Cathode. ACS Catalysis 2019,
9, 2448-2457.
(14) Maiti, S., et al.,
Methanol Steam Reforming Behavior of Sol-Gel Synthesized Nanodimensional
CuxFe1-xAl2O4 Hercynites. Applied Catalysis A:
General 2019, 570, 73-83.
(15)Yamada, Y.; Sugiura, T.;
Morita, K.; Ariga-Miwa, H.; Tanaka, K., Improved Synthesis of Monocationic Μ–Nitrido-Bridged
Iron Phthalocyanine Dimer with No Peripheral
Substituents. Inorg. Chim.
Acta 2019, 489, 160-163.
(16) Hinuma, Y.; Toyao, T.; Kamachi, T.; Maeno, Z.; Takakusagi, S.; Furukawa, S.; Takigawa, I.; Shimizu, K., Density Functional Theory
Calculations of Oxygen Vacancy Formation and Subsequent Molecular Adsorption on
Oxide Surfaces. J. Phys. Chem, C. 2018,
122, 29435-29444.
(17) Toyao, T.; Suzuki, K.;
Kikuchi, S.; Takakusagi, S.; Shimizu, K.; Takigawa,
I., Toward Effective Utilization of Methane: Machine Learning Prediction of
Adsorption Energies on Metal Alloys. J. Phys. Chem. C. 2018, 122,
8315-8326.
(18) 高草木, 達.; 朝倉清髙;, 分子修飾による酸化物単結晶表面での金属超高分散化とPTRF-XAFS 法による三次元構造解析 表面と真空 2018, 61, 309-314.