東京大学物性研究所物質設計評価施設 電子顕微鏡室 > 主要設備 > 実績 
  ■ トップ
  ■ 主要設備
  ■ スタッフ
  ■ 利用
  ■ 予約
  ■ 実績
  ■ リンク
  ■ 装置近況
  ■ 予約表一覧


問い合わせ先
〒277-8581
千葉県柏市柏の葉5-1-5
東京大学物性研究所電子顕微鏡室(A053)
担当:浜根
TEL: 04-7136-3462
担当直通PHS: 65256
E-mail: tem*
*@issp.u-tokyo.ac.jp

  

-実績-

 

電顕室利用による成果,電顕室スタッフが関わった研究成果をこのページで公表していきます(2010〜)。共同利用で得られた成果は[共同利用],下線は電顕室スタッフです。
 

 

  

 電子顕微鏡室を利用して成果が得られた場合、その旨を論文中に記述してください。

  

 
(例1)This work was carried out under the Visiting Researcher's Program of the Institute for Solid State Physics, the University of Tokyo.

(例2)This work was carried out by the joint research in the Institute for Solid State Physics, the University of Tokyo.

(例3)This work was performed using facilities of the Institute for Solid State Physics, the University of Tokyo.
 


2012年  

9) [共同利用] Mizuno Y., Hosono E., Saito T., Okubo M., Nishio-Hamane D., Oh-ishi K., Kudo T., Zhou H.  (in press) Electrospinning synthesis of wire-structured LiCoO2 for electrode materials if high-power Li-ion batteries, The Journal of Physical Chemistry C.

8) 大越悠数, 皆川鉄雄, 浜根大輔 (in press) 宮崎県千軒平スカルン産ハルス石. 岩石鉱物科学.

7) Nishio-Hamane D., Ohgoshi Y., Minakawa T. (in press) Miyahisaite, (Sr,Ca)2Ba3(PO4)3F, a new mineral of hedyphane group in apatite supergroup from Shimoharai mine, Oita Prefecture, Japan. Journal of Mineralogical and Ptrological Sciences.

6) Nishio-Hamane D., Zhang M., Yagi T., Ma Y. (2012) High-pressure and high-temperature phase transitions in FeTiO3 and a new dense FeTi3O7 structure. American Mineralogist, 97, 568-572.

5Nishio-Hamane D., Ohnishi M., Minakawa T., Yamaura J., Saito S., Kadota R. (2012) Ehimeite, NaCa2Mg4CrSi6Al2O22(OH)2: The first Cr-dominant amphibole from the Akaishi Mine, Higashi-Akaishi Mountain, Ehime Prefecture Japan. Journal of Mineralogical and Petrological Sciences, 107, 1-7.

4) [共同利用] Saito T., Miyoshi H., Nishio-Hamane D. (2012) Structure and magnetic properties of Sm5Fe17 melt-spun ribbon. Journal of Applied Physics, 111, 07E322.

3) [共同利用] Saito T., Miyoshi H., Nishio-Hamane D.,  (2012) Magnetic properties of Sm-Fe-Ti nanocomposite magnets with a ThMn12 structure. Journal of Alloys and Compounds, 519, 144-148.

2)  [共同利用] Shinozaki A., Hirai H., Kagi H., Kondo T., Okada T., Nishio-Hamane D., Machida S., Irifune T., Kikegawa T., Yagi T. (2012) Reaction of forsterite with hydrogen molecules at high pressure and temperature. Physics and Chemistry of Minerals, 39, 123-129.

1) Fujino K., Nishio-Hamane D., Seto Y., Sata N., Nagai T., Shinmei T., Irifune T., Ishii H., Hiraoka N., Cai Y., Tsuei K. (2012) Spin transition of ferric iron in Al-bearing Mg-perovskite up to 200 GPa and its implication for the lower mantle. Earth and Planetary Science Letters,317-318, 407-412.


2011

10) [共同利用] Xu K., Tsuzuki K., Hara S., Zhou D., Xu Y., Nishio-Hamane D., Izumi M. (2011) Enhanced flux pinning and microstructural study of single domain Gd-Ba-Cu-O bulk superconductors with the addition of Fe-containing alloy particles., IEEE transactions on Magnetics, 47, 4139-4142.

9) [共同利用] Sue K., Aoki M., Sato T., Nishio-Hamane D., Kawasaki S., Hakuta Y., Takebayashi Y., Yoda S., Furuya T., Sato T., Hiaki T. (2011) Continuous hydrothermal synthesis of nickel ferrite nanoparticles using a central collision-type micromixer: Effect of temperature, residence time, metal salt molality, and NaOH addition on conversion, particle size, and crystal phase., Industrial and Engineering Chemical Research, 50, 9625-9631.

8) 浜根大輔,藤田尚行,八木健彦 (2011) コア圧力下におけるキセノン-鉄系のふるまい. 高圧力の科学と技術, 21, 109-114. 

7) [共同利用] Xu K., Tsuzuki K., Hara S., Zhou D., Zhang Y., Murakami M., Nishio-Hamane D., Izumi M. (2011) Investigation of microstructural and superconducting properties in the Gd-Ba-Cu-O single domains with in-situ formed Fe3O4 ferrimagnetic powders., Superconductor Science and Technology, 24, 085001.

6) [共同利用] Nishimoto K., Sato T., Muraki M., Tamura R. (2011) Low-temperature structural stability of Cd6M (M = Ho, Er, Tm and Lu) cubic crystalline approximants., Philosophical Magazine, 91, 2587-2593 .

5) [共同利用] Saito T., Nishio-Hamane D. (2011) Magnetic properties of (Sm,Y)5Fe17 melt-spun ribbons., Journal of Applied Physics, 109, 07A724.

4) [共同利用] Saito T., Ishikawa H., Nishio-Hamane D. (2011) Magnetic properties of Pr-Fe-Ti-B nanocomposite magnets produced by spark plasma sintering method., Journal of Applied Physics, 109, 07A754.

3) Okada T., Yagi T., Nishio-Hamane D. (2011) High-pressure behavior of MnTiO3: decomposition of perovskite into MnO and MnTi2O5, Physics and Chemistry of Minerals, 38, 251-258.

2) 永井隆哉, 浜根大輔, 藤野清志 (2011) MgSiO3-FeAlO3系ペロブスカイトの固溶メカニズムと結晶化学., 日本結晶学会誌, 53, 8-12.

1) [共同利用] Saito T., Nishio-Hamane D., Yoshii S., Nojima T. (2011) Ferromagnetic carbon materials prepared from polyacrylonitrile., Applied Physics Letters, 98, 052506.


2010年

2) Nishio-Hamane D., Yagi T., Ohshiro M., Niwa K., Okada T., Seto Y. (2010) Decomposition of perovskite FeTiO3into wüstite Fe1-x, Ti0.5xO and orthorhombic FeTi3O7 at high pressure., Physical Review B, 82, 092103.

1) 瀬戸雄介,浜根大輔,永井隆哉,佐多永吉 (2010) X線回折実験における統合解析支援ソフトウェアの開発. 高圧力の科学と技術, 20, 269-276.