業績2019

Original Papers

  1. 山下修司鈴木敏弘平田岳史(2019)レーザーアブレーションICP質量分析計によるナノ粒子の粒径・分布分析法の開発、分析化学68, 1-8.(分析化学会2019年論文賞)
  2. 平田岳史山下修司鈴木敏弘、石田未来(2019)多重検出器型ICP質量分析計を用いたナノ粒子の元素・同位体分析、分析化学68, 81.
  3. Tanaka Y., Mikuni-Takagaki Y., Hidaka K., Wada-Takahashi S., Kawamata R., Hirata T. (2019) Correction of Mass Spectrometric Interferences for Rapid and Precise Isotope Ratio Measurements of Calcium from Biological Samples using ICP-Mass Spectrometry, Anal. Sci., 35, 793-798.
  4. Aoki K., Seo Y., Sakata S., Obayashi H., Tsuchiya Y., Imayama T., Yamamoto S. and Hirata T. (2019) U–Pb zircon dating of the Sanbagawa metamorphic rocks in the Besshi–Asemi-gawa region, central Shikoku, Japan, and tectonostratigraphic Consequences, J. Geol. Soc. Japan, 125, 183-194.
  5. Arakawa A., Jakubowski N., Köllensperger G., Theiner S., Schweikert A., Flemig S., Iwahata D., Traub H., Hirata T. (2019) Imaging of Ag NP transport through collagen-rich microstructures in fibroblast multicellular spheroids by high-resolution laser ablation inductively coupled plasma time-of-flight mass spectrometry, Analyst, 144, 4935-4942, 10.1039/c9an00856j.
  6. Arakawa A., Jakubowski N., Koellensperger G., Theiner S., Schweikert A., Flemig S., Iwahata D., Traub H., Hirata T. (2019) Quantitative imaging of silver nanoparticles and essential elements in thin sections of fibroblast multicellular spheroids by high resolution laser ablation inductively coupled plasma time-of-flight mass spectrometry (LA-ICP-TOF-MS), Anal. Chem., 91, 10197-10203, 10.1021/acs.analchem.9b02239.
  7. Yamashita S., Yoshikuni Y., Obayashi H., Suzuki T., Green D., Hirata T. (2019) Simultaneous Determination of Size and Position of Silver and Gold Nanoparticles in Onion Cells using Laser Ablation-ICP-MS, Anal. Chem., 91 (7), 4544–4551, 10.1021/acs.analchem.8b05632.
  8. Arakawa A., Jakubowski N., Flemig S., Koellensperger G., Rusz M., Iwahata D., Traub H., Hirata T. (2019) High resolution-laser ablation inductively coupled plasma mass spectrometry used to study transport of metallic nanoparticles through collagen-rich microstructures in fibroblast multicellular spheroids, Anal. Bioanal. Chem., 411, 3497-3506, 10.1007/s00216-019-01827-w.
  9. Iwano H., Danhara T., Yuguchi T., Hirata T., Ogasawara M. (2019) Duluth Complex apatites age reference material for LA–ICP–MS based fission-track dating, Terra Nova, 10.1111/ter.12393.
  10. Katagiri T., Naruse H., Ishikawa N., Hirata T. (2019) Collisional bending of the western Paleo Kuril Arc deduced from paleomagnetic analysis and U-Pb age determination, Island Arc., 29, 1-23, 10.1111/iar.12329.
  11. Nagata M., Miyazaki K., Iwano H., Danhara T., Obayashi H., Hirata T., Yagi K., Kouchi Y., Yamamoto K., Otoh S. (2019) Timescale of material circulation in subduction zone: U–Pb zircon and K–Ar phengite double‐dating of the Sanbagawa metamorphic complex in the Ikeda district, central Shikoku, southwest Japan, Island Arc., 28 (4), 1-19, 10.1111/iar.12306.
  12. Makino Y., Kuroki Y., Hirata T. (2019) Determination of major to trace elements in metallic materials based on solid mixing calibration method using multiple spot-laser ablation-ICP-MS, J. Anal. Atom. Spectrom., 34, 1794-1799, 10.1039/C9JA00181.
  13. Togao M., Nakayama M.M. S., Ikenaka Y., Mizukawa H., Makino Y., Kubota A., Matsukawa T., Yokoyama K., Hirata T., Ishizuka M. (2019) Bioimaging of Pb and STIM1 in mice liver, kidney and brain using Laser Ablation Inductively Coupled Plasma Mass Spectrometry (LA-ICP-MS) and Immunohistochemistry, Chemosphere, 238, 124581, 10.1016/j.chemosphere.2019.124581.
  14. Miyazaki K., Suga K., Mori Y., Iwano H., Yagi K., Shigeno M., Nishiyama T., Danhara T., Hirata T. (2019) Kinetics and duration of metamorphic mineral growth in a subduction complex: zircon and phengite in the Nagasaki metamorphic complex, western Kyushu, Japan, Contributions to Mineralogy and Petrology, 174, 91, 10.1007/s00410-019-1629-8.
  15. Yoshino T., Makino Y., Suzuki T., Hirata T. (2019) Grain boundary diffusion of W in lower mantle phase with implications for isotopic heterogeneity in oceanic island basalts by core-mantle interactions, Earth Planet. Sci. Lett., 530, 115887, 10.1016/j.epsl.2019.115887.
  16. Okabayashi S., Yokoyama T., Hirata T., Terakado K., GalimovIron G.M. (2019) isotopic composition of very low-titanium basalt deduced from the iron isotopic signature in Luna 16, 20, and 24 soils, Geochim. Cosmochim, Acta, 269, 1-14, 10.1016/j.gca.2019.10.020.
  17. 田中佑樹、小椋康光、高垣裕子、平田岳史(2019)安定同位体メタロミクス、質量分析67 (5)、134-141.
  18. 山下修司鈴木敏弘平田岳史(2019)二重収束型ICP質量分析計によるナノ粒子の高感度分、質量分析67 (5)、142-146.
  19. 鈴木敏弘山下修司吉國由希久平田岳史(2019)ICP質量分析装置を用いたナノ粒子測定用データ解析ソフト(NanoQuant)の開発、質量分析67 (5)、147-153.
  20. 槇納好岐クー フィーシン、黒木 康生、鈴木 敏弘平田岳史(2019)高速多点レーザーアブレーション-ICP質量分析法を用いた多元素同時分析、質量分析67 (5)、154-159.
  21. 平田岳史槇納好岐藤本万寿人、黒木 康生、高橋けんし(2019)レーザーアブレーション-ICP質量分析法による鉄鋼試料の元素分析、質量分析67 (5)、160-166.
  22. Yamashita K., Komatsu K., Klotz S., Fernandez-Diaz M.T., Febelo O., Irifune T., Sugiyama K., Kawamura T., Kagi H. (2019) A nano-polycrystalline diamond anvil cell with bulk metallic glass cylinder for single-crystal neutron diffraction. High Pressure Research, 10.1080/08957959.2019.1700980.
  23. Takimoto Y., Monkawa A., Nagata K., Kobayashi M., Kinoshita M., Gessei T., Mori T., and Kagi H. (2019) Detection of SO2 at the ppm level with localized surface plasmon resonance (LSPR) sensing. Plasmonics, https://doi.org/10.1007/s11468-019-01099-1.
  24. Yamashita K., Komatsu K., Hattori T., Machida S., and Kagi H. (2019) Crystal structure of a high-pressure phase of magnesium chloride hexahydrate determined in-situ X-ray and neutron diffraction methods. Acta Crystallographica, C75, 1605-1612.
  25. Suzuki M., Kubota K., Nishimura R., Negishi L., Komatsu K.Kagi H., Rehav K., Cohen S., Weiner S. (2019) A unique methionine-rich protein-aragonite crystal complex: Structure and mechanical function of the Pinctada fucata bivalve hinge ligament. Acta Biomaterialia, 100, 1-9.
  26. Litasov K.D., Bekker T.B. , and Kagi H. (2019) Reply to the discussion of “Enigmatic super-reduced phases in corundum from natural rocks: Possible contamination from artificial materials or metallurgical slags.” by W.L. Griffin, V. Toledo, and S.Y. O’Reilly, Lithos348-349, 105170.
  27. Dissanayake S.E., Matsuda M., Munakata K., Kagi H., Gouchi J., and Uwatoko Y. (2019) Development of cubic anvil type high pressure apparatus for neutron diffraction. Journal of Physics-Condensed Matter31, 384001.
  28. Zedgenizov D.A., Ragozin A.L., Kagi H., Yurimoto H., and Shatsky V.S. (2019) SiO2 inclusions in sublithospheric diamonds. Geochemistry International57, 964-972.
  29. Ishikawa M., Kagi H., Sasaki T., and Endo K. (2019) Chemical basis of molluscan shell colors revealed with in-situ micro Raman spectroscopy. Journal of Raman Spectroscopy50, 1700-1711.
  30. Yamashita S., Mukai H., Tomioka N., Kagi H., and Suzuki Y. (2019) Iron-rich smectite formation in subseafloor basaltic lava in aged oceanic crust. Scientific Reports9, 11306.
  31. Litasov K.D., Kagi H., Bekker T.B., Hirata T., and Makino Y. (2019) Cuboctahedral type Ib diamonds in ophiolitic chromites and peridotites: The evidences for anthropogenic contamination. High Pressure Research39, 10.1080/08957959.2019.1616183.
  32. Litasov K.D., Kagi H., Voropaev S.A., Hirata T., Ohfuji H., Ishibashi H., Makino Y., Bekker T.B., Sevastyanov V.S., Afanasiev V.P. and Pokhilenko N.P. (2019) Comparison of enigmatic diamonds from the Tolbachik arc volcano (Kamchatka) and Tibetan ophiolites: Assessing the role of contamination by synthetic materials. Gondwana Research75, 16-27.
  33. Litasov K.D., Kagi H., and Bekker T.B. (2019) Enigmatic super-reduced phases in corundum from natural rocks: Possible contamination from artificial materials or metallurgical slags. Lithos, 340-341, 181-190.
  34. Nakamura Y., Hara H., and Kagi H. (2019) Natural and experimental structural evolution of dispersed organic matter in mudstones: the Shimanto accretionary complex, southwest Japan. Island Arc, 10.1111/iar.12318
  35. Yamane R., Komatsu K., Maynard-Casely H.E., Lee S., Booth N., and Kagi H. (2019) Exploring for ferro-electrically ordered form of ice VII by neutron diffraction under high pressure and high magnetic field. Physical Review B, 99,174201.
  36. Kagi H., Kubo T., Shinozaki A., Okada T., Ohfuji H., and Nakao A. (2019) Reaction between forsterite and nitrogen fluid at high pressure and high temperature. Geochemistry International57, 956-963.
  37. Kouketsu Y., Miyake A., Igami Y., Taguchi T., Kagi H., and Enami M. (2019) Drastic effect of shearing on graphite microtexture: attention and application to Earth Science. Progress in Earth and Planetary Science, 10.1186/s40645-019-0271-4.
  38. Kobayashi M., Sumino H., Burgess, R., Nakai S., Iizuka T., Nagao K.Kagi H., Nakamura M., Takahashi E., Kogiso T., Ballentine C. (2019) Halogen heterogeneity in the lithosphere and evolution of mantle halogen abundances inferred from intra plate mantle xenoliths. Geochemistry, Geophysics, Geosystems, 10.1029/2018GC007903.
  39. Iizuka-Oku R., Soustelle V., Miyajima N., Walte N., and Frost D.J., Yagi T. (2019) Experimentally deformed lawsonite at high pressure and high temperature: Implication for low velocity layers in subduction zones, Physics of the Earth and Planetary Interiors, 295, 106282, 10.1016/j.pepi.2019.106282.
  40. Ono, T., Mori, T. and Tsunomori, F. (2019) High-frequency field auto-sampling of volcanic waters discharged near craters of active volcanoes, Bulletin of Volcanology, 10.1016/j.jhydrol.2020.124712.
  41. Morikawa N., Tsunomori F., Kazahaya K. and Matsumoto N. (2019) Estimating Crustal Fluid Flux and Continuous Monitoring of Magmatic and Seismic Activities Using Helium Isotopes, Journal of Geography, 128 (5), 785-795.
  42. Fujiwara H., Nakamura H., Senna S., Otani H., Tomii N., Ohtake K., Mori T. and Kataoka S. (2019) Development of a Real-Time Damage Estimation System, Journal of Disaster Research, 14(2), 315-332, 10.20965/jdr.2019.p0315.
  43. Yamada T., Ueda H., Mori T., and Tanada T. (2019) Tracing Volcanic Activity Chronology from a Multiparameter Dataset at Shinmoedake Volcano (Kirishima), Japan. Journal of Disaster Research, 14(5), 687-700, 10.20965/jdr.2019.p0687.
  44. Morita M., Mori T., Yokoo A., Ohkura T. and Morita Y. (2019) Continuous monitoring of soil CO2 flux at Aso volcano, Japan: the influence of environmental parameters on diffuse degassing, Earth, Planets and Space, 71, 1, 10.1186/s40623-018-0980-8.
  45. Machida A., Saitoh H., Hattori T., Sano-Furukawa A., Funakoshi K.I., Sato T., Orimo S., Aoki K. (2019) Hexagonal close-packed iron hydride behind the conventional phase diagram, Scientific reports, 9(1), 1-9.

Reviews and Books

  1. 鍵 裕之小松 一生飯塚 理子 (2019) 特集<量子ビームの協奏的利用による先端研究>放射光と中性子がつなぐ地球惑星深部における水素の物質科学、日本放射光学会 学会誌「放射光」、 第32巻2号(2019年3月発行)
  2. 平田岳史槇納好岐山下修司(2019)レーザーアブレーションICPMSによる元素およびナノ粒子のイメージング、ぶんせき8、334-341.