研究者業績

三木 一司

ミキ カズシ  (Kazushi Miki)

基本情報

所属
兵庫県立大学 工学研究科 電気物性工学専攻 教授
学位
工学博士(筑波大学)

J-GLOBAL ID
200901040326748080
researchmap会員ID
5000006371

パワーデバイスの新材料、β型酸化ガリウムのドーピングに関する研究を実施中。SPring-8に近い、地の利を利用して放射光を用いた評価技術を積極的に利用している。

論文

 112
  • Okkyun Seo, Jaemyung Kim, Jiayi Tang, L.S.R. Kumara, Koji Kimoto, Kazushi Miki, Akifumi Matsuda, Mamoru Yoshimoto, Osami Sakata
    Journal of Alloys and Compounds 945 169177-169177 2023年6月  
  • Koichi Murata, Shuhei Yagi, Takashi Kanazawa, Satoshi Tsubomatsu, Christopher Kirkham, Koh-ichi Nittoh, David R Bowler, Kazushi Miki
    Nano Futures 5(4) 045005-045005 2021年12月1日  
    Abstract Conventional doping processes are no longer viable for realizing extreme structures, such as a δ-doped layer with multiple elements, such as the heavy Bi, within the silicon crystal. Here, we demonstrate the formation of (Bi + Er)-δ-doped layer based on surface nanostructures, i.e. Bi nanolines, as the dopant source by molecular beam epitaxy. The concentration of both Er and Bi dopants is controlled by adjusting the amount of deposited Er atoms, the growth temperature during Si capping and surfactant techniques. Subsequent post-annealing processing is essential in this doping technique to obtain activated dopants in the δ-doped layer. Electric transport measurement and photoluminescence study revealed that both Bi and Er dopants were activated after post-annealing at moderate temperature.
  • Haidong Zhao, Katsuhiro Isozaki, Tomoya Taguchi, Shengchun Yang, Kazushi Miki
    PHYSICAL CHEMISTRY CHEMICAL PHYSICS 23(47) 26822-26828 2021年12月  
    Laying-down gold nanorods (GNRs) of a monolayer immobilized on a solid substrate was realized with a hybrid method, a combination of three elemental technologies: surface modification, electrophoresis, and solvent evaporation. The self-assembly of CTAB-protected GNRs in the solution was induced by 0.05 mM of EDTA. The assembled GNRs were deposited in a laying-down form on the solid surface during the hybrid method. The final coverage was over 71% on the substrate with an area larger than 0.6 cm(2). The spacing between the sides of the GNRs was fixed to be 4.6 +/- 0.9 nm by the thermal annealing-promoted crystalline packing of the bilayer of CTAB salt-bridged with EDTA. The obtained laying-down GNRs of a monolayer on the gold substrate show a small shift of the transverse LSPR around 550-570 nm (with a width of around 100 nm) and a large red shift of the longitudinal LSPR to be 900-1050 nm (with a width of 500 nm), because of the strong electromagnetic coupling between the GNRs and gold substrate. Therefore it can be used in a wide range of wavelengths for surface enhanced Raman spectroscopy (SERS) applications. The film has a high enhancement factor with 10(5) for R6G.
  • Katsuhiro Isozaki, Tomoya Taguchi, Kosuke Ishibashi, Takafumi Shimoaka, Wataru Kurashige, Yuichi Negishi, Takeshi Hasegawa, Masaharu Nakamura, Kazushi Miki
    Catalysts 10(8) 908-908 2020年8月9日  査読有り
    The self-assembled monolayer (SAM)-modified metallic nanoparticles (MNPs) often exhibit improved chemoselectivity in various catalytic reactions by controlling the reactants’ orientations adsorbed in the SAM; however, there have been a few examples showing that the reaction rate, i.e., catalytic activity, is enhanced by the SAM-modification of MNP catalysts. The critical parameters that affect the catalytic activity, such as the supports, nanoparticle size, and molecular structures of the SAM components, remain uninvestigated in these sporadic literature precedents. Here, we report the mechanistic investigation on the effects of those parameters on the catalytic activity of alkanethiolate SAM-functionalized gold nanoparticles (AuNPs) toward silane alcoholysis reactions. The evaluation of the catalytic reaction over two-dimensionally arrayed dodecanethiolate SAM-functionalized AuNPs with different supports revealed the electronic interactions between AuNPs and the supports contributing to the rate enhancement. Additionally, an unprecedented size effect appeared—the AuNP with a 20 nm radius showed higher catalytic activity than those at 10 and 40 nm. Infrared reflection–absorption spectroscopy revealed that the conformational change of alkyl chains of the SAM affects the entrapment of reactants and products inside the SAM, and therefore brings about the acceleration effect. These findings provide a guideline for further applying the SAM-functionalization technique to stereoselective organic transformations with designer MNP catalysts.
  • Bulgarevich Kirill, Sakamoto Kenji, Minari Takeo, Yasuda Takeshi, Miki Kazushi, Takeuchi Masayuki
    ADVANCED FUNCTIONAL MATERIALS 29(45) 2019年11月  査読有り

MISC

 134
  • 山崎洸, 尾田裕一, 日塔光一, 三木一司, 坂本一之
    日本物理学会講演概要集(CD-ROM) 71(2) ROMBUNNO.13pPSB‐31-2366 2016年9月23日  
    <p>異方性を有する基板にスピン軌道相互作用の大きい重元素を吸着させると、異方的なRashba効果の発現など興味深い物性が期待できる。そこで我々は、Si(110)表面にPbを蒸着して作製したPb/Si(110)-(2x4)の電子構造を角度分解光電子分光により測定した。本講演では、得られた結果を過去の報告と比較検討することにより、Pb/Si(110)表面の電子状態を議論する。</p>
  • 尾田裕一, 山崎洸, SHEN Y, 日塔光一, 三木一司, 坂本一之
    日本物理学会講演概要集(CD-ROM) 71(2) ROMBUNNO.13pPSB‐55 2016年9月23日  
  • 藤牧 拓郎, 渡辺 達也, 三木 一司, 白木 一郎
    日本物理学会講演概要集 69(1) 884-884 2014年3月5日  
  • 三木一司, 三木一司, PINCELLA Francesca, PINCELLA Francesca, 磯崎勝弘
    応用物理学会秋季学術講演会講演予稿集(CD-ROM) 75th 2014年  
  • 磯崎 勝弘, 三木 一司
    C & I commun : colloid & interface communication : newsletter from DCSC 39(1) 36-38 2014年  
  • Takao Ochiai, Takao Ochiai, Katsuhiro Isozaki, Katsuhiro Isozaki, Satoko Nishiyama, Kazushi Miki, Kazushi Miki
    Applied Physics Express 7 2014年1月1日  
    Densely arraying gold nanoparticles (AuNPs) immobilized on substrates is still a challenge. For the arraying, surface modification of AuNPs with alkanethiols is a key technology. However, if the particle size is larger than 20 nm, short-chain alkanethiols have very weak interparticle interaction such that self-assembly is not realized, whereas long-chain alkanethiols have very strong interaction such that self-aggregation is induced in solution. One solution is their combination. Eventually, a HexT : DodT = 4 : 1 mixture gave a dense array of 55nm AuNPs on an ITO substrate with a coverage of approximately 80%. Our approach provides high-performance plasmonic optics with a resonance wavelength of more than 700 nm. © 2014 The Japan Society of Applied Physics.
  • Yeji Song, Yeji Song, Pincella Francesca, Pincella Francesca, Katsuhiro Isozaki, Kazushi Miki, Kazushi Miki
    Optics InfoBase Conference Papers 2013年12月1日  
  • Francesca Pincella, Francesca Pincella, Katsuhiro Isozaki, Kazushi Miki, Kazushi Miki
    Optics InfoBase Conference Papers 2013年12月1日  
  • Takao Ochiai, Takao Ochiai, Katsuhiro Isozaki, Katsuhiro Isozaki, Francesca Pincella, Francesca Pincella, Tomoya Taguchi, Tomoya Taguchi, Koh Ichi Nittoh, Kazushi Miki, Kazushi Miki
    Applied Physics Express 6 2013年10月1日  
    Two-dimensional arrays of gold nanoparticles (AuNPs) as localized surface plasmon-resonant (LSPR) optics on a transparent conductive layer of indium-tin-oxide (ITO) were successfully fabricated. The typical surface coverage of the 10nm sized AuNPs is over 87% for on ITO film roughness of ±0.2 nm. The LSPR wavelength is tunable in the range of 622-905 nm. By adjusting the LSPR wavelength to 905nm at peak, twophoton photochromic reaction of diarylethene derivative in solution phase was demonstrated with irradiation by an incoherent near-infrared light in the range of 0.017-0.033W/cm2 instead of a laser, thanks to the AuNP two-dimensional array. © 2013 The Japan Society of Applied Physics.
  • Tomoya Taguchi, Tomoya Taguchi, Katsuhiro Isozaki, Katsuhiro Isozaki, Kazushi Miki, Kazushi Miki
    Advanced Materials 24 6462-6467 2012年12月18日  
    An unprecedented substrate-selective catalytic enhancement effect of an alkanethiol-self-assembled monolayer (SAM) on Au nanoparticles (AuNPs) is reported. In the supported 2D-array of AuNPs, the alkanethiol-SAM acts as a protein-like soft reaction space in which the substrate molecules are encapsulated through non-covalent intermolecular hydrophobic interactions, and thus catalytic reactions are accelerated at AuNP surfaces. © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
  • Kazushi Miki, Kazushi Miki, Katsuhiro Isozaki, Katsuhiro Isozaki, Takao Ochiai, Takao Ochiai, Tomoya Taguchi, Tomoya Taguchi, Koh Ichi Nittoh
    ECS Transactions 50 205-213 2012年12月1日  
    Near-field light sources made it possible to go beyond the diffraction limit. Innovative nanophotonics offers potential throughout the field of photonics, including industrial applications such as high-efficiency solar cells. These applications require a novel technique for generating not a nanometer-scale point but a large-area (mm2-m2) near-field light source. Here, we report the first large-area near-field light source that is densely constructed of uniform-size gold nanoparticles (AuNPs) two-dimensionally arrayed with regular interparticle gaps, which eventually has tunable localized surface plasmon resonance (LSPR) bands (600- 1100 nm). The light source is attached by means of chemical coating on 1×1-cm2 substrates, but there is no limitation on the size. © The Electrochemical Society.
  • 坂本 謙二, 上野 純一, 三木 一司
    日本液晶学会討論会講演予稿集 (2012) "2b06-1"-"2b06-2" 2012年8月20日  
    We have investigated the molecular orientation and field-effect mobility of pentacene thin films formed on very thin photo-aligned polyimide films. The exposure of linearly polarized light in photo-alignment treatment was varied up to 300 J/cm^2. The molecular orientation, field-effect mobility, surface morphology, and crystallinity of the pentacene films were determined by polarized infrared absorption, current-voltage characteristics of pentacene-field effect transistors, atomic force microscopy, and X-ray diffraction, respectively. Their light exposure dependence will be discussed.
  • Katsuhiro Isozaki, Katsuhiro Isozaki, Takao Ochiai, Takao Ochiai, Tomoya Taguchi, Tomoya Taguchi, Koh Ichi Nittoh, Kazushi Miki, Kazushi Miki
    Applied Physics Letters 97 2010年11月29日  
    Innovative nanophotonic applications require a technique for generating not a nanometer-scale point but a large-area (mm2 - m2) near-field light source. We succeeded in developing a large-area near-field light source that is densely constructed of uniform-size gold nanoparticles (AuNPs) two-dimensionally arrayed with regular interparticle gaps, which has tunable localized surface plasmon resonance bands (600-1100 nm). The near-field excitation properties based on the optical tunability of the AuNP two-dimensional arrays demonstrate that our chemical coating of large-area near-field light sources is widely applicable such as for high-sensitivity optical sensors and high-efficiency solar cells. © 2010 American Institute of Physics.
  • Hongjun Liu, Run-Wei Li, Kazushi Miki
    e-Journal of Surface Science and Nanotechnology 8 354-357 2010年9月4日  
    The initial adsorption of C60 molecules on an Al nanocluster array template, an Si(111)-7×7 surface with an Al nanocluster array, was observed at various temperatures using a variable temperature scanning tunneling microscope (STM). STM images showed that C60 molecules stay above the dimer lines near the corner hole, with one of the 6-6 bonds facing toward the adsorbing surface and forming chemical bonds with two neighboring corner Si adatoms. The strong interaction immobilized C60 molecules on the adsorbing template. © 2010 The Surface Science Society of Japan.
  • Martin Setvin, Veronika Brazdova, Kazushi Miki, David R. Bowler
    PHYSICAL REVIEW B 82(12) 125421 2010年9月  
    The S(110)-(16x2) surface has a complex reconstruction containing alternating up and down atomic steps with a periodicity of 5 nm. By studying the electronic states around the step edges with scanning tunnel microscope (STM), and by adsorption of water molecules, we are able to propose a model of the step structure. It requires the removal of seven atoms from the stepped (1x1) surface, and simulated STM images from density functional theory are in excellent agreement with experiment. We also found that water forms a perfectly ordered array on the upper terrace of the stepped reconstruction.
  • Kenji Sakamoto, Kazushi Miki, Masahiro Misaki, Koichi Sakaguchi, Yuzuru Hijikata, Masayuki Chikamatsu, Reiko Azumi
    JOURNAL OF APPLIED PHYSICS 107(11) 113108 2010年6月  
    Polarized polymer-based light-emitting diodes (PLEDs) have been fabricated by inserting a very thin photoaligned polyimide film into the device structure. The photoaligned polyimide film was used to form a highly oriented layer of light-emitting polymer, poly (9,9-dioctylfluorenyl-2,7-diyl) (PFO). The polyimide contains azobenzene in the backbone structure, allowing us to control the alignment of its backbone structure by optical treatment. Since the photoalignment treatment is scratch-free, the thickness of the photoaligned film can be reduced below 4 nm without decreasing its alignment ability for PFO. Even though polyimide is a good insulator, such a very thin photoaligned film can be inserted into PLED structures. We examined the influence of the thickness of the photoaligned polyimide film and the light-emitting layer on the polarization ratio and the current efficiency of the polarized PLEDs. Using a 2.9 nm-thick polyimide photoalignment layer and a 101 nm-thick PFO light-emitting layer, we have succeeded in fabricating a polarized PLED with a current efficiency of 0.3 cd/A at 150 cd/m(2) and polarization ratios of 46 at 434 nm, 27 at 460 nm, and 20 for integrated intensity from 400 to 600 nm. (C) 2010 American Institute of Physics. [doi: 10.1063/1.3445774]
  • Jakub Javorsky, James Hugh Gervase Owen, Martin Setvin, Kazushi Miki
    JOURNAL OF PHYSICS-CONDENSED MATTER 22(17) 175006 2010年5月  
    By means of scanning tunnelling microscopy and spectroscopy, we have investigated the electronic structure of Bi nanolines on clean and H-passivated Si(100) surfaces. Maps of the local density of states (LDOS) images of the Bi nanolines are presented for the first time. The spectra obtained for nanolines on a clean Si surface and the LDOS images agree with ab initio predicted spectra for the Haiku structure. For nanolines on a H-passivated surface, the spectra obtained suggest that the Bi nanoline may locally pin the surface Fermi level, and the LDOS images taken at low bias show a distribution of states different to what was expected at the Bi nanolines. The results are discussed with respect to use of the nanolines as atomic wire interconnections.
  • N. T. Kinahan, D. E. Meehan, T. Narushima, S. Sachert, J. J. Boland, K. Miki
    PHYSICAL REVIEW LETTERS 104(14) 146101 2010年4月  
    The reaction of molecular oxygen with the Si(11)- 7 x 7 surface is investigated at room temperature using in situ scanning tunneling microscopy and surface stress measurements to reveal the quantitative relationship between site-specific oxygen coverage and a decrease in tensile surface stress. This relationship is described using a modified form of the reaction model originally proposed by Dujardin et al. We show that the decrease in tensile surface stress is greatest for the faulted subunits of the 7 x 7 cell and determine the stress signatures of different reaction products, including the absence of long-lived metastable species with a unique stress signature.
  • Koichi Murata, Yuhsuke Yasutake, Koh-ichi Nittoh, Kunihiro Sakamoto, Susumu Fukatsu, Kazushi Miki
    APPLIED PHYSICS EXPRESS 3(6) 061302 2010年  
    Hybrid laser annealing, i.e., a serial combination of laser exposure and furnace annealing, is demonstrated to activate Bi donors that are wire-delta-doped in Si. The photoluminescence reveals that the dense Bi atoms are activated so efficiently that an impurity band develops upon rapid radiation heating of the focused area close to the melting point of Si. The unintentional defects that are created thereby can be totally eliminated by subsequent furnace annealing at 390 degrees C. As a result, we attained a record concentration of active Bi donors >10(18) cm(-3) in excess of the predicted solubility limit. (C) 2010 The Japan Society of Applied Physics
  • Katsuhiro Isozaki, Kazushi Miki
    CHEMICAL COMMUNICATIONS 46(17) 2947-2949 2010年  
    A novel DNA base-pairing beta-hairpin peptide involving intramolecular hydrogen bonds for induction of beta-hairpin secondary structure and intermolecular complementary hydrogen bonds between thymine and diaminopyridine for molecular recognition has been synthesized.
  • Katsuhiro Isozaki, Akira Sato, Kazushi Miki
    ACTA CRYSTALLOGRAPHICA SECTION E-STRUCTURE REPORTS ONLINE 65 M1401-U1458 2009年11月  
    The title compound, [Pt(C15H18NO2S)Cl], was obtained by the cyclometallation reaction of cis-bis(benzonitrile)dichloridoplatinum(II) with N-benzylidene-L-methionine allyl ester in refluxing toluene. The Pt-II atom has a square-planar geometry and is tetra-coordinated by the Cl atom and the C, N and S atoms from the benzylidene methionine ester ligand. In the crystal structure, the S atoms show opposite chiral configurations with respect to the alpha-carbon of the methionine, reducing steric repulsion between the methyl and allyl ester groups.
  • Hidenobu Nakao, Hideki Hayashi, Hiroshi Shiigi, Kazushi Miki
    ANALYTICAL SCIENCES 25(10) 1177-1179 2009年10月  
    We have reported a one-step method for creating one-dimensional metallic nanoarrays on surfaces. This method is based on the processes of solvent vapor-induced buildup and controlled drying front movement, and forms parallelly aligned metallic nanoarrays exceeding several hundred micrometers in length on a poly(dimethylsiloxane) (PDMS) sheet. Strong light scattering originating from highly localized electromagnetic (light) fields was observed on prepared metallic nanoarrays. Furthermore, the enhancement of electromagnetic fields localized on prepared metallic nanoarrays strongly depended on the incident-light polarization.
  • 三木一司, 坂本一之, SETVIN Martin, 馬渡健児, ERIKSSON P.E.J, UHRBERG R.I.G
    応用物理学関係連合講演会講演予稿集 56th(2) 821 2009年3月30日  
  • 坂本一之, SETVIN M, 馬渡健児, ERIKSSON P. E. J, 三木一司, UHRBERG R. I. G
    日本物理学会講演概要集 64(1) 916 2009年3月3日  
  • 中尾 秀信, 田口 知弥, 椎木 弘, 三木 一司
    表面科学 30(8) 439-443 2009年  
  • Hidenobu Nakao, Tomoya Taguchi, Hiroshi Shiigi, Kazushi Miki
    CHEMICAL COMMUNICATIONS (14) 1858-1860 2009年  
    This communication describes the growth and parallel patterning of 1D DNA nanofibers, exceeding several hundred micrometers in length and 40 nm in diameter, induced by solvent evaporation.
  • Kazuyuki Sakamoto, Martin Setvin, Kenji Mawatari, P. E. J. Eriksson, Kazushi Miki, R. I. G. Uhrberg
    PHYSICAL REVIEW B 79(4) 045304 2009年1月  
    The electronic structure of a single domain Si (110)-(16x2) surface has been investigated by high-resolution angle-resolved photoelectron spectroscopy and scanning tunneling microscopy (STM). Four semiconducting surface states with flat dispersions, whose binding energies are 0.2, 0.4, 0.75, and 1.0 eV, were observed in the bulk band gap and more than six states were observed within the projected bulk band at binding energies less than 5.2 eV. The origins of the four surface states and of one state at a binding energy of approximately 1.5 eV at the (Gamma) over bar point are discussed based on the local density of states mappings obtained by STM. Further, a structural model that can explain all these five states is proposed.
  • Dong Guo, Kenji Sakamoto, Kazushi Miki, Susumu Ikeda, Koichiro Saiki
    PHYSICAL REVIEW LETTERS 101(23) 236103 2008年12月  
    We report the epitaxial growth of thin films of a small organic molecule (pentacene) on polymer substrates with controllable photoalignment over a wide range. The pentacene molecular plane exhibited a distinct orientational change from parallel to perpendicular relative to the polymer chain with increasing substrate polymer alignment. Each orientation consists of twinlike domains. Such characteristics reveal a unique alignment-induced epitaxial transition controlled by the subtle balance of weak interactions, showing a promising approach for tuning the characteristics of organic semiconductor based electronic devices.
  • Diedrich A. Schmidt, Kazushi Miki
    CHEMPHYSCHEM 9(13) 1914-1919 2008年9月  
    We apply our previously developed deconvolution method and interpretation to analyze changes in the OH stretching band [nu(OH) bond] of low-concentration (<= 0.2 m) aqueous solutions of NaCl and KCl. We treat these simple, monovalent ions as defects in the hydrogen-bond network of pure water and quantify the changes in the spectra at low defect concentration with on "order parameter". Order-parameter analysis of difference spectra of the two solutions leads to hydration numbers of 70 +/- 7.0 and 5.9 +/- 0.3 for K+ and Na+, respectively. Additionally, we find that changes in the nu(OH) bond due to low concentrations of ions result from changes in the topology of the hydrogen-bond network.
  • Anirban Bandyopadhyay, Kazushi Miki
    ADVANCED FUNCTIONAL MATERIALS 18(8) 1173-1177 2008年4月  
    Using a two bit molecular switch, an ultra-dense memory chip has been built following a fully automated fabrication process. Well-ordered templates are grown naturally using a well-defined protocol of temperature variation. This template is so designed that molecules are adsorbed selectively only into particular sites whenever they are bombarded on the template through an e-beam evaporator for a particular time. The technique is a generalized protocol that has been used to grow atomic-scale templates by proper tuning of basic global parameters like temperature and evaporation time. Tuning of the basic template parameters is also demonstrated here, and has been used to scale down parameter values following the same route. Tuning the junction profile should allow selective adsorption of more complicated multi-level switches in future. Therefore, a fairly simple technology has been established that addresses one of the most fundamental issues of continuous miniaturization, i.e., simultaneous automated growth of thousands of atomically precise single molecular devices.
  • J. Gardener, J. H. G. Owen, K. Miki, S. Heutz
    SURFACE SCIENCE 602(4) 843-851 2008年2月  
    Different growth modes were identified using scanning tunnelling microscopy (STM) in the initial stages of ultra-thin films growth of copper phthalocyanine (CuPc) on Si(001) surfaces terminated with ammonia (Si(001):NH(3)) and hydrogen (Si(001):H), depending on the surface chemistry. At the onset of the growth, defect sites are saturated with strongly-pinned flat-lying CuPc molecules. Subsequently, molecules arrange in a standing manner, with two macroscopic island directions along the [110] and [1 (1) over bar0] directions. The Si surface termination influences the shape and coverage of the molecular layer before the onset of multilayer formation: on NH(3) terminated surfaces, large elongated islands are formed, and nucleation of the second layer begins after the first layer is only 50% complete. This is in contrast to the H passivated surfaces, where a high density of smaller islands form and a higher coverage is reached before second layer nucleation, which we have attributed to a difference ill molecular mobility on the substrate. STM shows that the islands contain columns of molecules, which oil both surfaces are aligned by 64 degrees with respect to the macroscopic island direction. From these observations, we have derived a model in which the molecular orientation observed in these studies is very similar to the bulk alpha-phase CuPc. This rationalises the reduced crystallite size characteristic of thicker phthalocyalline films. (C) 2007 Published by Elsevier B.V.
  • J. Gardener, J. H. G. Owen, K. Miki, S. Heutz
    SURFACE SCIENCE 602(4) 843-851 2008年2月  
    Different growth modes were identified using scanning tunnelling microscopy (STM) in the initial stages of ultra-thin films growth of copper phthalocyanine (CuPc) on Si(001) surfaces terminated with ammonia (Si(001):NH(3)) and hydrogen (Si(001):H), depending on the surface chemistry. At the onset of the growth, defect sites are saturated with strongly-pinned flat-lying CuPc molecules. Subsequently, molecules arrange in a standing manner, with two macroscopic island directions along the [110] and [1 (1) over bar0] directions. The Si surface termination influences the shape and coverage of the molecular layer before the onset of multilayer formation: on NH(3) terminated surfaces, large elongated islands are formed, and nucleation of the second layer begins after the first layer is only 50% complete. This is in contrast to the H passivated surfaces, where a high density of smaller islands form and a higher coverage is reached before second layer nucleation, which we have attributed to a difference ill molecular mobility on the substrate. STM shows that the islands contain columns of molecules, which oil both surfaces are aligned by 64 degrees with respect to the macroscopic island direction. From these observations, we have derived a model in which the molecular orientation observed in these studies is very similar to the bulk alpha-phase CuPc. This rationalises the reduced crystallite size characteristic of thicker phthalocyalline films. (C) 2007 Published by Elsevier B.V.
  • Osami Sakata, Wataru Yashiro, David R. Bowler, Kunihiro Sakamoto, Kazushi Miki, Masashi Nakamura, Hiroshi Funakubo
    ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES 64 C548-C549 2008年  
  • Diedrich A. Schmidt, Kazushi Miki
    JOURNAL OF PHYSICAL CHEMISTRY A 111(40) 10119-10122 2007年10月  
    We present a new and alternative interpretation of the structure of the IR vibrational mode (v(OH) band) of pure water. The re-interpretation is based on the influence of the cooperative hydrogen bonding arising from a network of hydrogen bonds in the liquid. The v(OH) band has six components that are dominated by differences in their O-H bond lengths but deviate from thermodynamically average values due to interactions with the hydrogen bond network. The physical origin of the structure in the v(OH) band is directly related to the O-H bond length, and variations in this bond length are caused by the influence of the surrounding hydrogen-bonded network of water molecules.
  • Kenji Sakamoto, Kazushi Miki, Masahiro Misaki, Koichi Sakaguchi, Masayuki Chikamatsu, Reiko Azumi
    APPLIED PHYSICS LETTERS 91(18) 183509-1-183509-3 2007年10月  
    Photoaligned polyimide films with different film thicknesses were prepared on quartz substrates, and uniaxially aligned glassy poly(9,9-dioctylfluorenyl-2,7-diyl) (PFO) layers were formed on top. The photoluminescence polarization ratio of the PFO layer rapidly increased with increasing polyimide film thickness, and beyond a thickness of 1.6 nm, it was saturated at similar to 11. This result shows that the 1.6-nm-thick photoaligned polyimide film works as a good alignment layer for PFO. We succeeded in fabricating a polarized light-emitting diode with a polarization ratio of 29 at 459 nm and a brightness of 700 cd/m(2) by using a 2.8-nm-thick polyimide photoalignment layer. (C) 2007 American Institute of Physics.
  • Run-Wei Li, Hongjun Liu, J. H G Owen, Y. Wakayama, K. Miki, H. W. Yeom
    Physical Review B - Condensed Matter and Materials Physics 76(7) 075418 2007年8月15日  
    By means of variable-temperature scanning tunneling microscopy, we have investigated systematically the formation process of Al magic cluster arrays on the Si (111) -7×7 surface at high temperature in situ. It was found that the magic clusters form only when the Al coverage is over a critical value, ∼0.08±0.015 ML. These clusters occupy preferentially on the faulted-half-unit cells of the Si (111) -7×7 surface, but this preference is coverage dependent. By analyzing systematically the spatial distribution of magic clusters below the saturation coverage, an attractive interaction between clusters was found, which prevents a triangular ordering of the nanocluster array. © 2007 The American Physical Society.
  • Kenji Sakamoto, Kiyoaki Usami, Kazushi Miki
    COLLOIDS AND SURFACES B-BIOINTERFACES 56(1-2) 260-264 2007年4月  
    We have investigated the molecular orientation of glassy poly (9,9-dioetylfluorenyl-2,7-diyl) (PFO) layers formed on photo-aligned polyimide films with different in-plane anisotropy. The polyimide contains azobenzene in the backbone structure (Azo-PI), allowing us to control the in-plane anisotropy of the film by varying linearly polarized light (LP-L) exposure. The glassy PFO layers (similar to 30 nm thick) were obtained by annealing the samples at the liquid crystalline phase of PFO and then quenching them to room temperature. The degree of alignment of PFO was assessed by the polarization ratio of photoluminescence (PL). The PL polarization ratio increased rapidly with the LP-L exposure, and it reached 10 at 2.8 J/cm(2). Beyond this LP-L exposure, it became almost constant around 10.4. This PL polarization ratio was much higher than the absorption dichroic ratio of the underlying Azo-PI film. This result suggests that the degree of alignment of PFO is determined by its liquid crystalline nature. The saturation dependence of the degree of alignment is very useful for fabricating alignment patterns by a simple photo-mask exposure method. We have succeeded in fabricating 3 mu m line-and-space alignment patterns of PFO. (c) 2006 Elsevier B.V. All rights reserved.
  • R. V. Belosludov, A. A. Farajian, H. Mizuseki, K. Miki, Y. Kawazoe
    PHYSICAL REVIEW B 75(11) 113411 2007年3月  
    The density functional theory and Green's function approaches have been used for the investigation of the electronic and transport properties of bismuth nanowires deposited on a Si(001) surface. The results of calculations show that the conductance properties of deposited bismuth wires depend on the morphology of the silicon surface and the existence of dangling bonds on the surface, which may lead to current leakage across these bonds. Thus in order to use the bismuth lines as atom-wire interconnections for molecular electronics applications it is important to use the hydrogenated Si(001) surface. Despite the fact that Bi nanowires exhibit semiconductor features, the current through these nanowires can be operated within a given voltage region. Moreover Bi nanowires may possibly be used as a nanoline template for other metals.
  • Dong Guo, Kenji Sakamoto, Kazushi Miki, Susumu Ikeda, Koichiro Saiki
    APPLIED PHYSICS LETTERS 90(10) 102117 2007年3月  
    The authors report preferential in-plane molecular orientation and charge transport anisotropy in pentacene thin film transistors achieved by using a photoaligned polyimide film with large in-plane anisotropy. Polarized infrared absorption spectra indicated that the molecular plane normal of the pentacene preferentially aligned along the average orientation direction of the underlying polyimide backbone structure. Atomic force microscope images showed that the alignment of the polyimide backbone structure significantly modified the pentacene growth process and remarkably increased the grain size. The charge carrier mobility along the polyimide alignment direction was about twice of that perpendicular to it. (c) 2007 American Institute of Physics.
  • Tetsuya Narushima, Masahiro Kitajima, Akiko N. Itakura, Akira Kurokawa, Shingo Ichimura, Kazushi Miki
    SURFACE SCIENCE 601(5) 1384-1388 2007年3月  
    Initial oxidation via ozone on the Si(100) surface is investigated by measuring surface stress and observing atomic structure via a scanning tunneling microscopy (STM). A similar investigation is also carried out for molecular oxygen and the results are compared. As a result, monotonic increase of the surface stress to the compressive stress side is obtained up to 0.33 N/m for ozone oxidation at room temperature, while molecular oxygen shows only tiny surface stress growth. From the STM observations, it is found that the difference between ozone and molecular oxygen oxidation is the existence of surface etching. As the origin of the surface stress, therefore, the reduction of the intrinsic tensile surface stress due to the reconstructed surface by the etching process is proposed. (c) 2007 Elsevier B.V. All rights reserved.
  • 坂田 修身, 吉本 護, 三木 一司, 中村 将志, 舟窪 浩
    日本結晶学会誌 49(5) 292-299 2007年  
    We have developed a nondestructive analysis method, which is named X-ray reciprocallattice space imaging, based on synchrotron diffraction for quickly characterizing a crystalline nanometer-scale structure in a non-vacuum environment. The basic idea behind the method is that the reciprocal lattice of 1 D or 2D structures are an array of sheets or rods, respectively. Thus the reciprocal-lattice space can be recorded for a fixed sample with a 2D X-ray detector fixed. We successfully demonstrated that the method was applicable to structural evaluation of ultrathin NiO wires on a sapphire surface in air, Bi nanolines buried in Si, an interfacial structure of a Au electrode in solution, and a thinfilm of Bi4Ti3O12.
  • K. Sakamoto, K. Miki, K. Usami
    Molecular Crystals and Liquid Crystals 475 33-43 2007年  
  • Run-Wei Li, Xin Zhou, Alexei A. Belik, Jun-ichi Inoue, Kazushi Miki, Bao-Gen Shen
    JOURNAL OF APPLIED PHYSICS 100(11) 113902 2006年12月  
    In electron-phase-separated Pr0.7Pb0.3MnO3 single crystals, nonlinear current effects have been observed above a critical current (I-c), beyond which a metal-insulator transition could be induced by the applied electrical current. We found that the square of I-c was linearly related to the external temperature, which can be well understood based on a local heating-cooling model. Furthermore, the surface area and mass of the current paths in the phase-separated systems were obtained by fitting our experimental data to the model, and a temperature-dependent topology of the current paths was found. In addition, interesting oscillatory behaviors in differential resistance (dV/dI) were observed at temperatures slightly above the metal-insulator transition temperature, which can be attributed to electron tunneling between isolated ferromagnetic clusters embedded in the insulating paramagnetic matrix. (c) 2006 American Institute of Physics.
  • Anirban Bandyopadhyay, K. Miki, Y. Wakayama
    APPLIED PHYSICS LETTERS 89(24) 243506-1 -243506-3 2006年12月  
    Large double negative differential resistance (NDR) has enabled a single quinone derivative to be stable in the neutral (0), singly reduced (1), typical neutral conformation generated by releasing the charge (2), and doubly reduced state (3) at 90 K. The authors wrote and erased information by switching a single molecule among these four conducting states (0,1,2,3) showing random access memory and read only memory applications for terabit memory generation in future. Origin of NDR is investigated in typical functional groups of the molecule, in local environment, and at atomic junction with scanning-tunneling-microscope tip to conclude NDR as a collective phenomenon. (c) 2006 American Institute of Physics.
  • Anirban Bandyopadhyay, K. Nittoh, Y. Wakayama, S. Yagi, K. Miki
    JOURNAL OF PHYSICAL CHEMISTRY B 110(42) 20852-20857 2006年10月  
    We have applied simultaneous horizontal and vertical bias to a single molecule (2 nm(2)) in an ordered and disordered matrix to virtually isolate and tune its property without taking it out physically from its environment. Using a dedicated electrode system, we have locally tuned nanoscale properties vertically by STM, while stabilizing its environment by applying a global electric field horizontally. Using this technique, we report tuning of molecular conformations in room temperature, whose evolution of states has been statistically investigated. We have also shown control on switching of a few selected conformations by applying dual bias simultaneously. As we avoid any direct injection of charge into the system via electrode contact, this technique could be used as a generalized method to tune phenomena evolved in an environment of weak interaction from a large distance without destroying the property.
  • Run-Wei Li, J. H. G. Owen, S. Kusano, K. Miki
    APPLIED PHYSICS LETTERS 89(7) 20852-20857 2006年8月  
    By means of high-temperature scanning tunneling microscopy, the authors present a direct observation on the dynamic behavior and phase transition of magic Al clusters on Si(111)-7x7 surfaces at high temperature. When the temperature is above 500 degrees C, fast diffusion of magic Al clusters on Si(111)-7x7 surfaces occurs while the magic cluster phase transforms into root 3x root 3-Al phase on downterraces (the downstep side of a terrace). From an Arrhenius plot, the activation energy of magic Al clusters on Si(111)-7x7 surfaces was extracted to be 2.0 +/- 0.3 eV. This study supplies important information for understanding the formation and phase transition process of magic Al nanoclusters on Si(111)-7x7 surfaces. (c) 2006 American Institute of Physics.
  • J. H. G. Owen, K. Miki, D. R. Bowler
    JOURNAL OF MATERIALS SCIENCE 41(14) 4568-4603 2006年7月  
    A number of different families of nanowires which self-assemble on semiconductor surfaces have been identified in recent years. They are particularly interesting from the standpoint of nanoelectronics, which seeks non-lithographic ways of creating interconnects at the nm scale (though possibly for carrying signal rather than current), as well as from the standpoint of traditional materials science and surface science. We survey these families and consider their physical and electronic structure, as well as their formation and reactivity. Particular attention is paid to rare earth nanowires and the Bi nanoline, both of which self-assemble on Si(001).

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