移転しました。移転先はこちら.
Assistant Professor,
Address: Bunkyo-ku, Yayoi, 2-11-16,
TEL: +81-3-5841-7756
FAX: +81-3-5841-7694
e-mail: shibata[a]sigma.t.u-tokyo.ac.jp
1.
N.
Shibata, A.Goto, S.-Y. Choi, T.
Mizoguchi, T. Yamamoto and Y. Ikuhara, “Direct imaging of reconstructed atoms
on TiO2 (110) surfaces,” Science
(2008)322, 570-573.
2.M. Imaeda, T. Mizoguchi, Y. Sato, H.-S. Lee, S.D. Findlay,
N. Shibata, T. Yamamoto and Y. Ikuhara, “Atomic structure, electronic
structure, and defect energetics in [001](310)S5 grain boundaries of SrTiO3 and BaTiO3,”
Phys. Rev. B (2008)78, 245320-1-12.
3.
S.
Kanehira, K. Miura, K. Hirao, N. Shibata, and Y. Ikuhara“Cross
patterning on MgO based on dislocations using femtosecond laser irradiation” Appl. Phys. A-Mater. Sci & Proc. 92 (2008) 913-916.
4.
Y.
Tokumoto, N. Shibata, T. Mizoguchi, M. Sugiyama, Y. Shimogaki, J.-S.
Yang, T. Yamamoto and Y. Ikuhara, “HRTEM observation of dislocation structures
in AlN thin films,” J. Mater. Res., 23[8]2188-2194(2008).
5. P.F. Becher, G.S.
Painter, N. Shibata, S.B. Waters and H.-T. Lin, “Effects of rare-earth
(RE) intergranular adsorption on the phase transformation, microstructure
evolution, and mechanical properties in silicon nitride with RE2O3+MgO
additives: RE=La, Gd, and Lu.” J. Am.
Ceram. Soc., 91[7]2328-2336(2008).
6. E. Tochigi, N.
Shibata, A. Nakamura, T. Yamamoto and Y. Ikuhara, “Partial dislocation
configurations in a low-angle boundary in a-Al2O3,” Acta Mater., (2008) 56, 2015-2021.
7. T. Nakagawa, I.
Sakaguchi, N. Shibata, K. Matsunaga, T. Mizoguchi, T. Yamamoto, H.
Haneda and Y. Ikuhara, “Yttrium doping effect on oxygen grain boundary
diffusion in alpha-Al2O3,” Acta Mater., (2007)55,
6627-6633.
8. K. Nakamura, T.
Mizoguchi, N. Shibata, K. Matsunaga, T. Yamamoto and Y. Ikuhara,
“First-principles study of grain boundary sliding in α-alumina,” Phys. Rev. B., (2007)75, 184109.
9. S. Kanehira, K.
Kimura, K. Fujita, K. Hirao, J. Si, N. Shibata and Y. Ikuhara,
“Optically produced cross patterning based on local dislocations inside MgO
single crystals,” Appl. Phys. Lett.,
(2007) 90, 163110.
10.
N.
Shibata, M.F. Chisholm, A. Nakamura,
S.J. Pennycook, T. Yamamoto and Y. Ikuhara, “Non-stoichiometric dislocation
cores in α-alumina,” Science, (2007) 316 82-85.
11.
K.
Matsunaga, T. Sasaki, N. Shibata, T, Mizoguchi, T. Yamamoto and Y.
Ikuhara,” Bonding nature of metal/oxide incoherent interfaces by
first-principles calculations,” Phys.
Rev. B., (2006)74, 125423.
12.
Y.
Sato, J.P. Buban, T. Mizoguchi, N. Shibata, T. Yamamoto and Y. Ikuhara,
“Role of Pr segregation in acceptor-state formation at ZnO grain boundaries,” Phys. Rev. Lett., (2006) 97, 106802.
13.
N.
Shibata, G. S. Painter, P. F. Becher and
S. J. Pennycook, “Atomic ordering at an Amorphous / Crystal Interface,” Appl. Phys. Lett., (2006) 89, 051908.
14.
M.
Igarashi, Y. Sato, N. Shibata, T. Yamamoto and Y. Ikuhara, “HRTEM study
of [001] low-angle tilt grain boundaries in fiber-textured BaTiO3
thin films,” J. Mater. Sci. (2006)41,
5146-5150.
15.
T.
Nakagawa, A. Nakamura, I. Sakaguchi, N. Shibata, K.P.D. Lagerlöf, T.
Yamamoto, H. Haneda and Y. Ikuhara, “Oxygen pipe diffusion in sapphire basal
dislocation,” J. Ceram. Soc. Jpn.,
(2006)114, 1013-1017.
16.
Y.
Tokumoto, T. Mizoguchi, Y. Sato, N. Shibata, T. Yamamoto and Y. Ikuhara,
“Atomic structure and relaxation behavior at AlN(0001)/Al2O3(0001)
interface,” J. Ceram. Soc. Jpn.,
(2006)114, 1018-1021.
17.
C.
Dwyer, A. Ziegler, N. Shibata, G.B. Winkelmann, R.L. Satet, M.J.
Hoffmann, M.K. Cinibulk, P.F. Becher, G.S. Painter, N.D. Browning, D.J.H.
Cockayne, R.O. Ritchie and S.J. Pennycook, “Interfacial structure in silicon
nitride sintered with lanthanide oxide,” J. Mater. Sci.,(2006) 41,4405-4412.
18.
P.F. Becher, G.S. Painter, N. Shibata, R.L.
Satet, M.J. Hoffmann and S.J. Pennycook, “Influence of Additives on Anisotropic
Grain Growth in Silicon Nitride Ceramics,” Mater. Sci. & Eng.,
(2006) 422, 85-91.
19.
S.-Y.
Choi, J.P. Buban, M. Nishi, H. Kageyama, N. Shibata, T. Yamamoto,
S.-J.L. Kang and Y. Ikuhara, “Dislocation structures of low-angle boundaries in
Nb-doped SrTiO3 bicrystals,” J. Mater. Sci., (2006)41 2621-2625.
20.
Y.
Tokumoto, Y. Sato, N. Shibata, T. Yamamoto and Y. Ikuhara, “Atomic
structure of AlN/Al2O3 interface fabricated by pulsed
laser deposition,” J. Mater. Sci., (2006)41 2553-2557.
21.
K.
Nakamura, N. Shibata, K. Matsunaga, T. Yamamoto and Y. Ikuhara,
"Theoretical study of Lu segregation in Σ13 Al2O3
grain boundary" Transactions of the Materials Research Society of Japan,
(2006)Vol. 31, 207-210.
22.
J.P.
Buban, K. Matsunaga, J. Chen, N. Shibata, W.Y. Ching, T. Yamamoto and Y.
Ikuhara, “Grain Boundary Strengthening in Alumina by Rare Earth Impurities, “ Science, (2006) 311 212-215.
23.
N.
Shibata, G. S. Painter, R. L. Satet, M.
J. Hoffmann, S. J. Pennycook and P. F. Becher, “Rare-earth adsorption at intergranular interfaces in silicon nitride
ceramics: Subnanometer observations and theory,” Phys. Rev. B, (2005) 72 140101(R).
24.
Y.
Sato, M. Yodogawa, T. Yamamoto, N. Shibata and Y. Ikuhara,
“Dopant-segregation-controlled ZnO single grain boundary varistors,” Appl. Phys.
Lett., (2005) 86 152112.
25.
M.
Varela, A.R. Lupini, K. van Benthem, A.Y. Borisevich, M.F. Chisholm, N.
Shibata, E. Abe, and S. J. Pennycook, “Materials Characterization in the
Abberation-Corrected Scanning Transmission Electron Microscope,” Annual
Review of Materials Research 2005 (2005) 35 539–69.
26.
T.
Nakagawa, N. Shibata, K. Matsunaga, T. Yamamoto, I. Sakaguchi, H. Haneda
and Y. Ikuhara, “Oxygen diffusion blocking of yttria-doped zirconia
bicrystals,” J. Mater. Sci., (2005) 40, 3185-3190.
27.
N.
Shibata, F. Oba, T. Yamamoto and Y.
Ikuhara, “Systematic study of grain-boundary atomistic structures and related
properties in cubic zirconia bicrystals,” Zeitschrift
für Metallkunde, (2005) 96 177-185.
28.
A.
Nakamura, N. Shibata, N. Morishige, T. Yamamoto and Y. Ikuhara, “Direct
evidence of Dopant-enhanced Grain-Boundary Sliding in Yttria-Stabilized
Zirconia Bicrystals,” J. Am. Ceram. Soc., (2005)88 938-942.
29.
P.F.
Becher, G.S. Painter, N. Shibata, H-T Lin and M.K. Ferber, “Macro- to
Atomic-Scale Tailoring of Si3N4 ceramics To Enhance
Properties, “ Key Eng. Mater., (2005) 287 233-241.
30.
T.
Ohno, S. Ii, N. Shibata, K. Matsunaga, Y. Ikuhara and T. Yamamoto, “High
resolution Microscopy study for [001] symmetric tilt boundary with a tilt angle
of 66 degrees in rutile-type TiO2 bicrystal,” Mater. Trans., (2004) 45
(7), 2117-2121.
31.
N.
Shibata, F. Oba, T. Yamamoto and Y.
Ikuhara, “Structure, energy and solute segregation behavior of [110] symmetric
tilt grain boundaries in yttria stabilized cubic zirconia,” Philos. Mag., (2004)84[23],
2381-2415.
32.
H.
Yoshida, K. Yokoyama, N. Shibata, Y. Ikuhara and T. Sakuma,
“High-temperature grain boundary and grain boundary energy in cubic sliding
behavior zirconia bicrystals,” Acta Mater., (2004)52 (8):
2349-2357.
33.
N.
Shibata, S.J. Pennycook, G.S. Painter
and P.F. Becher, “Observation of rare-earth segregation in silicon nitride
ceramics at subnanometre dimensions,” Nature, (2004) 428 730-733.
34.
N.
Shibata, F. Oba, T. Yamamoto, T. Sakuma
and Y. Ikuhara, “Grain boundary faceting at Σ = 3, [110]/{112} grain boundary
in cubic zirconia bicrystal,” Philos. Mag.,(2003) 83[19]2221-2246.
35.
N.
Shibata, F. Oba, T. Yamamoto, Y. Ikuhara
and T. Sakuma, “Atomic structure and solute segregation of Σ =3, [110] / {111}
grain boundary in yttria stabilized cubic zirconia bicrystal,” Philos. Mag.
Lett., (2002)82[7] 393-400.
36.
Y.
Ikuhara, N. Shibata, T. Watanabe, F. Oba, T. Yamamoto and T. Sakuma,
“Grain boundary characters and structures in structural ceramics,” Annales
de Chimie, Science des Materiaux A, (2002) 27 Suppl. 1,S21-S30.
37.
N.
Shibata, N. Morishige, T. Yamamoto, Y.
Ikuhara and T. Sakuma, “Stacking-fault formation in [001] small-angle symmetric
tilt grain boundaries in cubic zirconia bicrystals,” Philos. Mag. Lett.,
(2002) 82[4] 175-181.
38.
N.
Shibata, T. Yamamoto, Y. Ikuhara and T.
Sakuma, “Structure of [110] tilt grain boundaries in zirconia bicrystals,” J.
Electron Microscopy, (2001) 50[6] 429-433.
39.
N.
Shibata, J. Katamura, A. Kuwabara, Y.
Ikuhara and T. Sakuma, “The instability and resulting phase transition of cubic
zirconia,” Mater. Sci. and Eng. A, (2001) 312[1-2] 90-98.
40.
N.
Shibata, J. Katamura, Y. Ikuhara and T.
Sakuma, “AEM study of interface structures related to cubic-to-tetragonal phase
transition in zirconia ceramics,” Ceram. Trans., (2000) 118,
181-188.
41.
J.
Katamura, N. Shibata, Y. Ikuhara and T. Sakuma, "Transmission
electron microscopy- energy-dispersive X-ray spectroscopy analysis of the
modulated structure in ZrO2-6mol%Y2O3,” Philos.
Mag. Lett., (1998) 78[1] 45-49.
42.
H.
Ogawa, A. Yasuda, N. Shibata, Y. Ikuhara and T. Sakuma,
"Segregation of Yttrium Ions to Domain Boundaries of Tetragonal
Zirconia," Philos. Mag. Lett., (1998) 77[4] 199-203.
1.
N.
Shibata,
A. Goto, K. Matsunaga, T. Mizoguchi, S.D. Findlay, T. Yamamoto and Y. Ikuhara, “Direct
observation of Au nanoislands on TiO2 (110) surface by HAADF STEM,” Micro. Microanal. (2008)14[S2]172-173.
2.
Y.
Tokumoto, N. Shibata, T. Mizoguchi, T. Yamamoto and Y. Ikuhara, “Structural
analysis of threading dislocations in AlN thin films,” Micro. Microanal. (2008)14[S2]258-259.
3.
S.D.
Findlay, A.J. D’Alfonso, L.J. Allen, M.P. Oxley, P.D. Nellist, E.C. Cosgriff,
G. Behan, A. Kirkland, N. Shibata, T. Mizoguchi and Y. Ikuhara, “Simulating
atomic resolution STEM images of non-periodic samples,” Micro. Microanal. (2008)14[S2]928-929.
4.
N.
Shibata,
A. Goto, K. Matsunaga, T. Mizoguchi, S.D. Findlay, T. Yamamoto and Y. Ikuhara,
“STEM imaging of Au nanoparticles on TiO2 surface,” AMTC Letters (2008) 1, 14-15.
5.
S.D.
Findlay, N. Shibata and Y. Ikuhara, “Gold nanoparticles on TiO2
(110): Exploring the imaging capabilities of aberration corrected scanning
transmission electron microscopes through simulation,” AMTC Letters (2008) 1,
16-17.
6.
N.
Shibata, F. Oba, T. Yamamoto and Y. Ikuhara, “Grain boundary atomic
structures in zirconia ceramics,” Proceedings of 30th International Conference
on Advanced Ceramics and Composites, 2006.
7.
K.
Nakamura, N. Shibata, K. Matsunaga, T. Yamamoto and Y. Ikuhara,
"Theoretical study of Lu segregation in Σ13 Al2O3
grain boundary" Transactions of the Materials Research Society of Japan,
(2006)Vol. 31, 207-210.
8.
N.
Shibata,
F. Oba, T. Yamamoto, Y. Ikuhara and T. Sakuma, “Solute Segregation at Grain
Boundaries in Zirconia Bicrystals,” Proceedings of 15th
International Congress on Electron Microscopy (ICEM 15), (2002), 1040-1041.
9.
N. Shibata,
T. Yamamoto, Y. Ikuhara and T. Sakuma, “Atomic structure and segregation of
[110] symmetric tilt grain boundaries in cubic zirconia bicrystals,” The
fourth pacific international conference on advanced materials and
processing(PRICM4), edited by S. Hanada, Z.Zhong, S.W. Nam and R.N. Wright,
The Japan Institute of Metals (2001) 679-682.
10.
N. Morishige, N. Shibata, T. Yamamoto
and Y. Ikuhara, “Structure, energy and strength of [001] symmetric tilt grain
boundaries in zirconia bicrystals,” The fourth pacific international
conference on advanced materials and processing(PRICM4), edited by S.
Hanada, Z.Zhong, S.W. Nam and R.N. Wright, The Japan Institute of Metals (2001)
725-728.
11.
K. Yokoyama, T. Watanabe, N. Shibata,
H. Yoshida, Y. Ikuhara and T. Sakuma, “Grain boundary sliding in cubic zirconia
bicrystal,” The fourth pacific international conference on advanced
materials and processing(PRICM4), edited by S. Hanada, Z.Zhong, S.W. Nam
and R.N. Wright, The Japan Institute of Metals, (2001), 2771-2774.
12.
N. Shibata,
J. Katamura, Y. Ikuhara and T. Sakuma, "Anisotropic features of antiphase
domain boundaries in tetragonal Zirconia," Proceedings of the
international conference on Solid-Solid phase transformations ’99 (JIMIC-3),
ed. by M. Koiwa, K. Otsuka and T. Miyazaki, The Japan institute of Metals
(1999) 1389-1392.
13.
N. Shibata,
J. Katamura, Y. Ikuhara and T. Sakuma, "Microanalysis of modulated
structure in zirconia ceramics," The third pacific international
conference on advanced materials and processing, edited by M.A.Imam,
R.DeNale, S.Hanada, Z.Zhong and D.N.Lee, The Minerals, Metals and Materials
Society, Warrendale, Pa. (1998) 1405-1410.
Invited talks:
1.
柴田直哉「金チタニア触媒界面の原子構造」日本学術振興会 先進セラミックス第124委員会、第129回会議(東京)2008.9.30.
2.
柴田直哉、幾原雄一「収差補正STEMによる結晶界面の原子構造解析」日本顕微鏡学会 第64回学術講演会, 2008.5.22.
3.
柴田直哉、幾原雄一、「界面機能元素の超高分解能STEM観察」特定領域研究 機能元素のナノ材料科学 第一回公開シンポジウム、東京、2008.3.6.
4.
柴田直哉、「原子スケールからのセラミック材料学−先進電子顕微鏡によるアプローチ−」崇城大学セミナー,2007.12.7.
5.
柴田直哉、幾原雄一「STEMによる材料界面ドーパント原子の直接観察と機能設計」日本顕微鏡学会関西支部 分子科学研究所ナノフォーラム、岡崎、2007.7.31
6.
柴田直哉、幾原雄一「超高分解能STEMによるセラミックス界面の原子構造解析」日本顕微鏡学会 第63回学術講演会, 2007.5.20.
7.
N.
Shibata and Y. Ikuhara, “STEM characterization of atomic structures and
chemistry of ceramic interfaces,” Engineering Ceramics 2007, Slovakia,
2007.5.8.
8.
柴田直哉、幾原雄一「収差補正STEMによるセラミックス粒界の研究」日本顕微鏡学会 超高分解能電子顕微鏡分科会 第2回講演会 収差補正顕微鏡によるナノサイエンス新展開 2007.2.22
9.
柴田直哉、幾原雄一「収差補正STEMのセラミックスへの応用」東京大学・日本電子産学連携室開設一周年記念講演会, 2007. 1. 23.
10.
柴田直哉「原子分解能STEMの基礎と応用」電子顕微鏡解析技術フォーラム、滋賀、2006.10.6.
11.
柴田直哉「Cs補正STEMによる材料研究の新しい展開」JEOLセミナー, 2006.5.19.
12.
柴田直哉「セラミックス粒界の超高分解能観察」その場・高分解能・分析電子顕微鏡による解析支援 平成17年度 ユーザー会議(つくば・物質・材料研究機構)2006.2.28.
13.
N.
Shibata
and Y. Ikuhara, “Grain boundary atomic structures and dopant effects of oxide
ceramics,” 30th International conference and exposition on advanced
ceramics and composites, Cocoa Beach, Florida, U.S.A., 2006.1.25.
14.
柴田直哉「窒化ケイ素粒界のSTEM観察−新たな展開−」日本学術振興会 先進セラミックス第124委員会、第120回会議(浜松)2005.11.22.
15.
N.
Shibata,
G.S. Painter, P.F. Becher and S.J. Pennycook, “Z-contrast STEM study of
intergranular amorphous phases in Si3N4 ceramics,” FEMMS
2005, Kasteel Vaalsbroek, Netherlands, Sep. 27, 2005.
16.
Y.
Ikuhara and N. Shibata, “Atomic structures, chemistry and properties in
ceramic interfaces,” FEMMS 2005, Kasteel Vaalsbroek, Netherlands, Sep. 30,
2005.
17.
柴田直哉「収差補正STEM法によるセラミック界面の原子構造解析」第15回格子欠陥フォーラム・日本物理学会格子欠陥分科(滋賀)2005.9.23.
18.
N.
Shibata,
G.S. Painter, S.J. Pennycook and P.F. Becher, “Z-contrast STEM imaging of
rare-earths’ behaviours at crystal intergranular interfaces in Si3N4
ceramics,” The American Ceramic Society 107th annual meeting and
exposition, Baltimore, U.S.A., Apr. 13, 2005.
19.
柴田直哉「収差補正STEMによるセラミックス界面の局所構造解析」COEセミナー(大阪大学) 2005. 1. 28.
20.
柴田直哉「収差補正STEMを用いたセラミックス界面の局所構造解析」第137回HVEM研究会(九州大学)2004. 12. 10.
21.
N.
Shibata,
Y. Ikuhara, T. Yamamoto and T. Sakuma, “Grain Boundary Structures in Zirconia
Bicrystals,” PAC RIM4 An International Conference on Advanced Ceramics and
Glasses, Maui, U.S.A., Nov. 7, 2001.
22.
N.
Shibata,
T. Yamamoto, Y. Ikuhara and T. Sakuma, ”Grain growth characteristics in BaTiO3,”
Sintering ’99, Penn State, (Pennsylvania, U.S.A.), Nov. 2, 1999.
Awards:
1.
N.
Shibata,
M.F. Chisholm, E. Tochigi, A. Nakamura, S.J. Pennycook, T. Yamamoto and Y.
Ikuhara, “Observation of Dislocation Core Termination in Sapphire,” Second place
winner in TEM class, The American Ceramic Society, 2007. 9. 20.
2.
J.P.
Buban, Y. Sato, K. Matsunaga, N. Shibata, T. Yamamoto and Y. Ikuhara, “Observing
Impurity Doping in Oxide Grain Boundaries using STEM,” Best Invited Paper at
the 2006 Microscopy and Microanalysis Meeting, Microbeam Analysis Society,
2007.8.7.
3.
N. Shibata,
F. Oba, T. Yamamoto and Y. Ikuhara, “Atomic-scale processes of grain-boundary
faceting in a zirconia bicrystal,” Best poster award, The third international
conference on recrystallization and grain growth, ReX & GG III, 2007. 6.15.
4.
J.P. Buban, K. Matsunaga, J. Chen, N.
Shibata, W.Y. Ching, T. Yamamoto and Y. Ikuhara, ”Preferential segregation
in alumina grain boundaries,” First place winner in TEM class, The American
Ceramic Society, 2006.10. 15.
5.
Y. Sato, J.P. Buban, T. Mizoguchi, N.Shibata,
M. Yodogawa, T. Yamamoto and Y. Ikuhara,”Pr segregation at a ZnO single grain
boundary,” Second place winner in TEM class, The American Ceramic Society,
2006.10. 15.
6.
K. Nakamura, N. Shibata, K. Matsunaga,
T. Yamamoto and Y. Ikuhara, “Lu segregation at the S13 pyramidal twin grain boundary in a-Al2O3,”
IMC16 Poster Award, The 16th International Microscopy Congress,
Sapporo, Japan, 2006. 9. 8.
7.
S. Choi, J. Buban, 柴田直哉、佐藤幸生、幾原雄一、山本剛久、「SrTiO3小傾角粒界における粒界転位配列構造」金属組織写真奨励賞、日本金属学会、2006.3.21.
8.
柴田直哉 日本金属学会 奨励賞 2004.9.28.
9.
ORNL Distinguished Overseas Fellowship, June
15, 2004.
10.
N.Shibata,
G.S.Painter, P.F. Becher, K. van Benthem and S.J. Pennycook,”Z-contrast STEM
imaging of dopant sites in silicon nitride intergranular films,” First place
winner in TEM class, The American Ceramic Society, 2004. 4. 20.
11.
N.Shibata,
N.Morishige, A.Nakamura T.Yamamoto, T.Sakuma and Y.Ikuhara, ” Misorientation
induced structure transformation at low-angle grain boundaries in cubic
zirconia bicrystals, Second place winner in TEM class, The American Ceramic
Society, 2003. 4. 30.
12.
N. Shibata,
T. Yamamoto, Y. Ikuhara and T. Sakuma, ”Grain Boundary faceting in a Zirconia
bicrystal,” The American Ceramic Society, Ceramographic Competition, Second
place winner in TEM class, 2002. 4. 30.
13.
柴田直哉、局在量子若手の会 増本賞 銅賞
14.
柴田直哉、山本剛久、幾原雄一、佐久間健人、「ジルコニア双結晶のΣ3粒界」日本セラミックス協会 第26回学術写真賞 最優秀賞 2001. 3. 22.
15.
N. Shibata,
T. Yamamoto, Y. Ikuhara and T. Sakuma, ”Structure of [110] tilt grain
boundaries in zirconia bicrystals” The best posters award at Eighth
Conference on Frontiers of Electron Microscopy in Materials Science
(FEMMS2000), Nov. 16, 2000.
16.
柴田直哉、片村淳二、幾原雄一、佐久間健人、「ZrO2-Y2O3変調構造の微構造解析」日本セラミックス協会 第25回学術写真賞 優秀賞 2000. 3. 22.
解説・雑誌記事等
1.
柴田直哉、幾原雄一「先進電子顕微鏡観察によるセラミックス粒界の解明と設計」マテリアルインテグレーション(2007)20[10]2-6.
2.
柴田直哉「収差補正STEMによる材料界面ドーパント原子直接観察」 顕微鏡(2006)41[3]208-211.
3.
柴田直哉、S.J. Pennycook「窒化ケイ素セラミックスの粒界アモルファス超微細構造」材料開発のための顕微鏡法と応用写真集、日本金属学会(2006)214.
4.
柴田直哉、幾原雄一「ジルコニアΣ3粒界のファセット構造」日本金属学会報 まてりあ (2005)44[12]963.
5.
Oleg Lourie、宮森康次、柴田直哉「SPM-TEMホルダーを用いたTEMその場ナノ計測」セラミックス, (2005)40[11]953-957.
6.
柴田直哉「収差補正STEMによるセラミック材料界面の局所構造解析」セラミックス, (2005)40[11]914-917.
7.
柴田直哉「窒化ケイ素粒界アモルファス研究の最新動向」セラミックデータブック, vol 33.(2005) 99-101.
8.
柴田直哉「最新走査型透過電子顕微鏡法による材料界面研究の新展開」日本金属学会報 まてりあ (2005)44[10]848.
9.
柴田直哉「オークリッジ国立研究所滞在記 Ultimate Resolution in Materials Science」日本金属学会報 まてりあ (2003)42[10]743.
新聞及びプレスリリース等
1.
化学工業新聞「JFCCナノ構造研 先端電顕相次ぎ導入」2009.1.26.
2.
NPG
asia materials: featured highlight: Surface Science: Reconstruction resolution.
2009. 1. 14. (http://www.natureasia.com/asia-materials/highlight.php?id=346)
3.
セラミックス「酸化チタン表面原子の直接観察に成功」44, 67(2009).
4.
日刊工業新聞「酸化チタン表面構造解明 東大 光触媒・太陽電池に応用」2008. 10. 28.
5.
日経産業新聞「表面の原子観察 東大、光触媒性能向上へ」2008.10.24.
6.
サイエンスに載った日本人研究者2007
7.
セラミックス「********」**, **(2007).
8.
月刊化学 化学掲示板「柔らかいセラミックスに道!原子のずれ発見」vol.67, 73(2007).
9.
読売新聞
10.
毎日新聞「曲げ伸ばし可能なセラミックスに光」2007.4.11.
11.
日刊工業新聞「セラ変形の仕組み解明」2007.4.6
12.
Discover
Magazine, “The Atomic Hammer and Chisel,” 25[8](2004)
13.
ORNL
Review, 37[3]2004.
14.
Knoxville
News Sentinel, “Team sets the world record of ‘tiny’,”2004.4.26.
15.
日経ナノテクノロジー“米ORNLが0.7Åの解像度でセラミックスの画像を撮影,原子の位置を特定”2004.4.19.
16.
American
Ceramic Society Bulletin, “A new tool for developing advanced ceramics,” 83[10]33(2004).
17.
American
Ceramic Society Bulletin Cover October 2004.
18.
Materialstoday,
“Taking ceramic design to atomic scale,” June 2004, 12.
19.
High
Tech Ceramics News, ”Atom-scale images tool for advanced ceramics,” 15[12](2004).
Please contact Dr. Shibata for more information.
Go To
Crystal
Interface Laboratory Home Page.