研究論文

【筆頭・責任著者:52編、共著者:26編】

2024


79) C.W. Kuo; M.H. Chen, Z. Wang, Z. Zuo, Y. T. Lee K.Y. L. Ho, K. Furukawa,   
   H. Matsui, J.J. Delaunay
  To be submitted, 2023

78) Plasmon-Free Surface Enhanced Raman Spectroscopy Using α-type MoO3 Semiconductor     Nanorods with Strong Light Scattering in the Visible Regime
  J. Yang, D. Tang, S. Ma, D. Yan, M. Seki, H. Tabata and *H. Matsui
  ACS Appl. Mater. Inter. (in press, 2024)

77) Light polarization effects of chemical sensing in the mid-infrared region using ZnO based
   plasmonic surface lattice resonances
  S. Ma, H. Yoda, J. Yang, D. Tang, I. Ando, S. Sato, Y. Teramura, H. Tabata and *H. Matsui
  J.Phys. Chem.C (in press 2024)

76) Label-free measuring biomolecular interactions using plasmonic metasurfaces with dual     bands based on surface lattice resonaces in the mid-infrared range
   D. Tang, S. Ma, J. Yang, H. Yoda, D. Yan, Y. Yoda, H. Tabata and *H. Matsui
   Sensors and Actuators B: Chemicals417, 136230 (2024).

2023年

75) Mechanically-induced anisotropic fragments in Sn-doped In2O3 nanoparticle films
  for flexible strain sensing based on surface plasmons
  *H. Matsui, A Momose , H. Yoda and A. Fujita
  ACS Appl. Mater. Inter. (on-line, 13. Oct. 2023)
  プレスリリース:
  ひずみが測れる柔らかい光センサーシートの開発
  ―生体の感覚系を模倣した亀裂の開閉動作が鍵―

2022年

74) Infrared plasmonic metamaterials based on transparent nanoparticle films of In2O3:Sn
   for solar thermal shileding applications
  *H. Matsui, M. Shoji, S. Higano, H. Yoda, Y. Ono, T. Misumi and A. Fujita
   ACS Appl. Mater. Inter. 14, 49313 (2022)
  プレスリリース:
  高い可視・電波透過性をあわせ持つフレキシブルな透明反射遮熱フィルムの開発
   -省エネガラス窓への応用に期待-

2021年

73) Sn-doped In2O3 nanoparticles as thermal insulating materials for solar-thermal shielding
   in the infrared range
   *H. Matsuiand H. Tabata
   ACS Appl. Nano Mater. 4, 6269-6279 (2021).

72) Integrating zeolite nanoparticles with plasmonic waveguides for ellipsometric detection of    acetone gas molecules
  M. Ikeda, *H. Matsui, Y. Yano, H. Yamahara and H. Tabata    
  Sensors and Actuators B: Chemicals, 344, 130310 (2021).

2020年

71) Infrared-compatible nanofluidic devices for plasmon-enhanced infrared absorption        spectroscopy
  T.H.H. Le, T. Matsushita, R. Ohta, Y. Shimoda, H. Matsui and T. Kitamori
  Micromachine 11, 1062 (2020).

70) Enhancing detection sensitivity of ZnO based plasmonic sensors using capped dielectric    Ga2O3 layers for real-time monitoring of biological interactions
  Y. Kuranaga, *H. Matsui, A. Ikehata, Y. Shimoda, M. Noiri, Y. L. Ho, J. J. Delaunay,         Y.Teramura, and H. Tabata
  ACS Appl. Bio Mater.3, 6332 (2020).
  Selection as ACS Highlight papers

69) Photo-induced metal-like phase of VO2 with sub-ns recovery
  J.K. Clark, Y.L. Ho, H. Matsui, B. Vilquin, H. Tabata and J.J. Delaunay
  ACS Photonics 7, 2395 (2020) .

68) Improvement in Electrical Characteristics of ZnSnO/Si Bilayer TFET
  by W/Al2O3 Gate Stack
  K. Kato, H. Matsui, H. Tabata, M. Takenaka and H. Takagi
  IEEE Journal of the Electron Devices Society 8, 341-345 (2020).

67) P-channel TFET operation of bilayer structures with type-II hetero tunneling junction of
  oxide- and group-IV semiconductors
  K. Kato, K.W. Jo, H. Matsui, H. Tabata, T. Mori, Y. Morita, T. Matsukawa
  M. Takenaka and S. Takagi
  IEEE Transactions on Electron Devices 67, 1880-1886 (2020).

2019年

66) Thresholdness behavior and lineartiy of the optically induced metalization of NbO2
  J. K. Clark, Y. L. Ho, H. Matsui, H. Tabata and J. J. Delaunay
  Phys. Rev. Research1, 033168 (2019).

65) Fabrication and electrical characteristics of ZnSnO/Si bilayer tunneling filed-effect        transistors   
  K. Kato, H. Matsui, H. Tabata, M. Takenaka and H. Tabata  
  IEEE Journal of the Electron Devices Society (2019).

64) Assembled films of Sn-doped In2O3 plasmonic nanoparticles on high-permittivity         substrates for thermal-shielding
  *H. Matsui and H. Tabata
  ACS Appl. Nano Mater. 2, 2806 (2019)

63) Experimental demonstration of ZnO/Si and ZnO/Ge bilayer tunneling field effect transistors
  K. Kato, H. Matsui, H. Tabata, M. Takenaka and S. Takagi   
  J. Appl. Phys.125,195701(2019).

62) Device design of bilayer tunneling field effect transistor with oxide-semiconductor and
   group-IV semiconductor hetero junction  
  K. Kato, H. Matsui, H. Tabata, M. Takenaka and S. Takagi      
  AIP Advances 9, 055001 (2019).

2018年

61) Optical pumped hybrid plasmonic-photonic waveguide modulator using the VO2         metal-insulator phase transition
  J. K. Clark, Y.L. Ho, H. Matsuiand J.J. Delaunay
  IEEE Photonic Journal10, 1-9 (2018)

60) Plasmonic heat-shielding in the infrared range based on oxide semiconductor nanoparticles
  *H. Matsui, T. Hasebe, N. Hasuike and H. Tabata
  ACS Appl. Nano Materials 1, 1853 (2018).

59) TiN/Al2O3/ZnO gate stack engineering for top-gate thin film transistors by combination of   post oxidation and annealing
  K. Kato,H. Matsui, H. Tabata, M. Takenaka and S. Takagi
  Appl.Phys.Lett.112,162105(2018).

2017年

58) A low-cost portable electrical sensor for hydroxyl ions based on amorphous InGaZnO4 thin   film at room temperature"
  D. Sun, *H. Matsui, H. Yamahara, C. Liu and H. Tabata
  Seonsrs and Actuators B: Chemical239, 679 (2017).

2016年

57) Asymmetric plasmon structures on ZnO: Ga for high sensitivity in the infrared range
  *H. Matsui, A. Ikehata and H. Tabata
  Applied Physics Letters109, 191601 (2016).

56) Roles of plasmonic interactions at particle interfaces in the infrared range based on       transparent oxide semiconductors
  *H. Matsui, S. Furuta, T. Hasebe and H. Tabata
  ACS Applied Materials & Interfaces 109, 191601 (2016).

2015年

55) Mid-infrared plasmonic resonances in two-dimensional VO2 nanosquare arrays
  *H. Matsui, L.Y. Ho, T. Kanki, H. Tanaka, J.J. Delaunay and H. Tabata
  Advanced Optical Materials 3, 1759 (2015).

54)Surface plasmon sensors on ZnO: Ga layer surfaces: Electric field edistributions and      absorption-sensitive enhancements
  *H. Matsui, A. Ikehata and H. Tabata
  Applied Physics Letters 106, 019905 (2015).

53) Hydroxyl radical and thermal annealing on amorphous InGaZnO4 films
  for DNA immobilizations"
  D. Sun, H. Yamahara, R. Nakane, H. Matsuiand H. Tabata
  Colloids and Surfaces B: Biointerfaces 130, 119 (2015).

52) High-temperature terahertz absorption band in rare-earth gallium garnet
  M. Adachi, H. Matsui, M. Seki, H. Yamahara and H. Tabata
  Physcial Review B 91, 085118 (2015).

51) Surface treatment on amorphous InGaZnO4 thin film for single-stranded DNA biosensing
  D. Sun, H. Matsui, C. N. Wu and H. Tabata
  Applied Surface Sciences324, 310 (2015).

2014年

50) Engineering of optical polarization based on electronic band structures
  on A-plane ZnO layers under biaxial strains"
  *H. Matsui, N. Hasuike, H. Harima and H. Tabata
  Jounral of Applied Physics 116, 113505 (2014).

49) Coupling of Er light emissions to plasmon modes on In2O3:Sn nanoparticle sheets"
  *H. Matsui, W. Badalawa, T. Hasebe, S. Furuta, W. Nomura, T. Yatsui, M. Ohtsu
   and H. Tabata
  Applied Physics Letters105, 041903 (2014).

48) Roles of electron carriers on local surface plasmons in doped oxide semiconductor       nanocrystals
  *H. Matsui, S. Furuta and H. Tabata
  Applied Physics Letters 104, 211903 (2014).

47) Spectral tunability of realistic plasmonic nanoantennas
  A. Portela, T. Yano, C. Santschi, H. Matsui, T. Hayashi, N. Hara, O.J.F. Martin and H. Tabata
  Applied Physics Letters 105, 091105 (2014).

46) Engineering of sharp restsrahelen reflections on rare-earth garnets in the terahertz regiome
  M. Adachi, H. Yamahara, S. Kawabe, H. Matsui and H. Tabata
  Physical Review B89, 211903 (2014).

2013年

45) Oixde surface plasmon resonances for a new sensing platform in the near-infrared range
  *H. Matsui, W. Badalawa, A. Ikehata and H. Tabata
  Advanced Optical Materials 1, 397 (2013).

44) Lattice, band spin engineering on Zn1-xCoxO
  *H. Matsui and H. Tabata
  Journal of Applied Physics113, 183523 (2013).

43) Doping effect of Cr ions on ferrimagnetism of niAs-type FeSe layers
  G. Song, *H. Matsui, H. Akai and H. Tabata
  Journal of Vacuum Science of Technolgy B 31, 042801 (2013).

2012年

42) Lattcie strains and polarized luminescence in homoepotaxial growth of a-plane ZnO
  *H. Matsui and H. Tabata
  Applied Physics Letters 101, 231901 (2012).

41) The contribution of quantum confinement to optical anisotropy of a-plane             Cd0.06Zn0.94O/ZnO quantum wells
  *H. Matsui and H. Tabata
  Applied Physics Letters 100, 171910 (2012).

40) Heteroepitaxial growth and characterization of ZnO films on Gd3Ga5O12 garnet substrates"
  Y. Ono, *H. Matsuiand H. Tabata
  Journal of Applied Physics112, 103920 (2012).

39) Metalic mesh-based THz biosensing of single and double-stranded DNA
  N. Hasebe, S. Kawabe, *H. Matsui and H. Tabata
  Journl of Applied Physics 112, 103920 (2012).

2011年

38) Optical dynamics and energy transfer in a hybrid structure of Cd0.08Zn0.92O quantum    wells and proximal Ag nanostructures
  *H. Matsui, W. Nomura, T. Yatsui, M. Ohtsu and H. Tabata
  Optics Letters36, 3537 (2011).

37) Surface plasmon modes guided by ZnO: Ga layers bounded by different dielectrics
  W. Badalawa, *H. Matsui, A. Ikehata and H. Tabata
  Applied Physics Letters99, 011913 (2011).

36) In-plane polarized light emissions in nonpolar m-plane CdxZn1-xO/ZnO quantum wells
  *H. Matsui and H. Tabata
  Applied Physics Letters98, 261902 (2011).
35) Correlation between structurtal and luminescent properties
  in Eu-doped ZnO epitaxial layers
  W. Badalawa, *H. Matsui, T. Osone, N. Hasuike, H. Harima and H. Tabata
  Journal of Applied Physics109, 053502 (2011).

2010

35) Carrier recombination process and magneto-photoluminescence in Zn1-xCoxO layers"
  Z.Y. Xiao, *H. Matsui, K. Katayama, K. Miyajima, T. Itoh and H. Tabata
  Journal of Applied Physics108, 013502 (2010).

34) Band alignment and excitonic localization in Cd0.08Zn0.92 quantum wells"
  *H. Matsui, T. Osone and H. Tabata
  Journal of Applied Physics103, 093523 (2010).

2009

33) In-plane anisotropy of polarized photoluminescence in M-nonpolar ZnO and            multiple-quantum wells
  *H. Matsui and H. Tabata
  Applied Physics Letters94, 161907 (2009).

2008

32) Enhancement of oxide VLS growth by carbon on substrate surface
  T. Yanagida, A. Marcu, H. Matsui, K. Nagashima, K. Oka, T. Yokota, M. Taniguchi, H.       Tanaka and T. Kawai
  Journal of Physical and Chemistry C 112, 18923 (2008).

31) Growth evolution of surface nanowires and large anisotropy of conductivity on MgZnO/ZnO   quantum wells based on M-nonpolar (10-10) ZnO
  *H. Matsui, N. Hasuike, H. Harima and H. Tabata
  Journal of Applied Physics104, 094309 (2008).

30) Systematic examination of excitonic-related transitions in Zn1-xCoxO: An evidence for II-VI   wide-gap semiconductors"
  Z.Y. Xiao, *H. Matsui, N. Hasuike, H. Harima and H. Tabata
  Journal of Applied Physics103, 043504 (2008).

2007

29) Simultaneous control of growth mode and ferromagnetic ordering in Co-doped ZnO layers   with Zn polarity
  *H. Matsui and H. Tabata
  Physical Review B75, 014438 (2007).

28) Co-doped ZnO homoepitaxy: Repeated oxygen-pressure modulated epitaxy
  *H. Matsui and H. Tabata
  Physica Status solidi C 3, 4106 (2007).

2006

27) Correlation of self-organized surface nanowires and anisotropic electron transport in       nonpolar ZnO (10-10) homoepitaxy
  *H. Matsui and H. Tabata
  Journal of Applied Physics 99, 124307 (2006).

26) Stranski-Krastanov growth in Mg0.37Zn0.63O/ZnO heteroepitaxy: self-organized nanodots   and local conposition separation"
  *H. Matsui, N. Hasuike, H. Harima, T. Tanaka and H. Tabata
  Applied Physics Letters 89, 091909 (2006).

25) Critical thickness and lattice relaxation of Mg-rich strained Mg0.37Zn0.63O (0001) layers    towards multi-qauntum wells"
  *H. Matsui, N. Hasuike, H. Harima and H. Tabata
  Jounral of Applied Physics99, 024902 (2006).

2005

24) Self-organized nanostripe arrays on ZnO (10-10) surfaces
  formed during molecular beam epotaxy
  *H. Matsui and H. Tabata
  Applied Physics Letters 87, 143109 (2005).

23) Epitaxial growth and characteristics of N-doped anatase TiO2 films grown
  using a free-radical NO source"
  *H. Matsui, N. Hasuike, H. Harima, B. Mizobuchi and H. Tabata
  Journal of Applied Physics97, 123511 (2005).

2004

22) An origin of mechanoluminescence from Mn-activated ZnAl2O4:
  tribo-electricity induced electroluminescence
  H. Matsui, C. N. Xu, Y. Liu and H. Tateyama
  Physical Review B69, 235169 (2004).

21) N doping using N2O and NO sources: from the viewpoint of ZnO
  *H. Matsui, H. Saeki, T. Kawai, B. Mizobuchi and H. Tabata
  Journal of Applied Physics 95, 5882 (2004).

20) Characteristics of polarity-contrlled ZnO films fabricated using the homoepitaxy techniques
  *H. Matsui, H. Saeki, T. Kawai, A. Sasaki, M. Yoshimoto, M. Tsubaki and H. Tabata
  Journal of Vacuum Science Technology B 22, 2452 (2004).

19) Raman scattering studies on ZnO doped with Ga and N (co-doping)
  and magnetic properties
  N. Hasuike, H. Fukushima, H. Harima, K. Kisoda, H. Matsui, H. Saeki and H. Tabata
  Journal of Condensed Matters 16, S5807 (2004).

18) Tranparent magnetic semiconductors based on ZnO
  H. Saeki, H. Matsui, H. Tabata and T. Kawai
  Journal of Condensed Matters 16, S5533(2004).

2003

17) Influence of co-doping with Ga on electrical and optical properties of N-doped ZnO films
  *H. Matsui, H. Saeki, H. Tabata and T. Kawai
  Journal of the Electrochemical Society150 G508 (2003).

16) Role of Ga for co-doping of Ga with N in ZnO films
  *H. Matsui, H. Saeki, H. Tabata and T. Kawai
  Japan Journal of Applied Physics42, 5494 (2003).

2002

15) Preparation of mechansim of materials with spinel Structures"
  H. Matsui, C. N. Xu and H. Tateyama
  Key Engineering Materials214/215, 253 (2002).

2001

14) Preparation and Characteristics of Y2SiO5 fine powders by europium
  Y. Liu, C.N. Xu and H. Matsui
  Ceramics Transactions 112, 59 (2001).

13) Stress-stimulated luminescence from ZnAl2O4:Mn
  H. Matsui, C. N. Xu and H. Tateyama
  Applied Physics Letters78, 1068 (2001).

12) Novel appraoch to dynamic imaging of stress distribution with piezoluminescence
  C.N. Xu, H. Matsui, Y. Liu, X.G. Zheng and L.Y. Li
  Ferroelectrics 263, 3 (2001).

2000

11) Preparation and luminescence of rare-earth activated Y2SiO5 thin films
  by metallorganic decomposition
  Y. Liu, C.N. Xu, H. Matsui, T. Imamura and T. Watanabe
  Journal of Luminescence87/89, 1297 (2000).

10) Long lasting phosphorescence from Eu2+-doped Srβ-alumina
  H. Matsui, C.N. Xu, T. Watanabe and M. Akiyama
  Journal of the Electrochemical Society147 4692 (2000).

9) Strong mechanoluminescence from UV-irradiated spinels of ZnGa2O4: Mn
 and MgGa2O4: Mn
 H. Matsui, C.N Xu, M. Akiyama and T. Watanabe
 Japan Journal of Applied Physics 39, 6582 (2000).

8) Optical properties of Ce3+ in Y2SiO5
 H. Matsui, C.N. Xu, Y. Liu and T. Watanabe
 Journal of Ceramics Society of Japan108, 1003 (2000).

7) Photo-stimulated luminescence phenomenon of Sr4Al14O25: Eu, Dy using only visible lights
 M. Akiyama, C.N. Xu, H. Matsui, K. Nonaka and T. Watanabe
 Journal of Material Science Letters19, 1163 (2000).

1999

6) Recovery phenomenon of mechanoluminescence from Ca2Al2SiO7: Ce by irradiation
 with ultraviolet light
 M. Akiyama, C.N. Xu, H. Matsui, K. Nonaka and T. Watanabe
 Applied Physics Letters 75, 2548 (1999).

1998

5) Superconducting properties of silver-doped YBa2Cu4O8 and Y0.9Ca0.1Ba2Cu4O8
 X.G. Zheng, H. Matsui, S. Tanaka, M. Suzuki, C.N. Xu and K. Shobu
 Materials research Bulltin33, 1213 (1998).

4) Transport superconducting properties of ambient oxygen pressure-fabricated Y124/Ag wires
 *H. Matsui, X.G. Zheng, S. Tanaka and M. Suzuki
 Material Letters37, 299 (1998).

3) Effect of starting material on normal-pressure synthesis of Y124 superconductor
 Y1-xCaxBa2Cu4O8
 X.G. Zheng, Y. Yamashita, H. Matsui, M. Suzuki, M. Taira and C.N. Xu
 Journal Material Science 33, 1057 (1998).

1997

2) Fabrication and charcterization of Y124 wires
 *H. Matsui, X.G. Zheng, S. Tanaka, M. Suzuki and T. Hoshino
 Physica C282/287, 2565 (1997).

1) A remarkable Jc enhancement in Y124 ceramics due to Ag-addition
  X.G. Zheng, H. Matsui, S. Tanaka, M. Suzuki and C.N. Xu
 Physica C282/287, 2581 (1997).