C. Zhuang, K. Minami, K. Shiba, and G. Yoshikawa, “Linear Stiffness Tuning in MEMS Devices via Prestress Introduced by TiN Thin Films,” ACS Applied Engineering Materials 1, 1213-1219 (2023).
T. Yildirim, M.-Q. Feng, T. A. Ngo, K. Shiba, K. Minami, and G. Yoshikawa, “Dual domain acoustic olfactory discriminator,” Sensors and Actuators A: Physical 350, 114102 (2023).
K. Minami, H. Kobayashi, M. Matoba, Y. Kamiya, S. Maji, T. Nemoto, M. Tohno, R. Nakakubo, and G. Yoshikawa, “Measurement of Volatile Fatty Acids in Silage through Odors with Nanomechanical Sensors,” Biosensors 13, 152 (2023).
G. Imamura, K. Minami, and G. Yoshikawa, “Repetitive Direct Comparison Method for Odor Sensing,” Biosensors (Basel) 13, 368 (2023).
M. K. Chahal, S. Maji, A. Liyanage, Y. Matsushita, P. Tozman, D. T. Payne, W. Jevasuwan, N. Fukata, P. A. Karr, J. Labuta, L. K. Shrestha, S. Ishihara, K. Ariga, F. D’Souza, G. Yoshikawa, Y. Yamauchi, and J. P. Hill, “Persistent microporosity of a non-planar porphyrinoid based on multiple supramolecular interactions for nanomechanical sensor applications,” Materials Chemistry Frontiers 7, 325-332 (2023).
K. Shiba, C. Zhuang, K. Minami, G. Imamura, R. Tamura, S. Samitsu, T. Idei, G. Yoshikawa, L. Sun, and D. A. Weitz, “Visualization of Flow-Induced Strain Using Structural Color in Channel-Free Polydimethylsiloxane Devices,” Adv Sci (Weinh) 10, e2204310 (2022).
T. Murata, K. Minami, T. Yamazaki, G. Yoshikawa, and K. Ariga, “Detection of Trace Amounts of Water in Organic Solvents by DNA-Based Nanomechanical Sensors,” Biosensors 12, 1103 (2022).
K. Minami, G. Imamura, R. Tamura, K. Shiba, and G. Yoshikawa, “Recent Advances in Nanomechanical Membrane-Type Surface Stress Sensors towards Artificial Olfaction,” Biosensors (Basel) 12, 762 (2022).
G. Yoshikawa, “嗅覚のAI,” Clinical Neuroscience (中外医学社, 186-187 (2021).
T. Yakabe, G. Imamura, G. Yoshikawa, N. Miyauchi, M. Kitajima, and A. N. Itakura, “2-step reaction kinetics for hydrogen absorption into bulk material via dissociative adsorption on the surface,” Scientific Reports 11, 18836 (2021).
H. Xu, K. Kitai, K. Minami, M. Nakatsu, G. Yoshikawa, K. Tsuda, K. Shiba, and R. Tamura, “Determination of quasi-primary odors by endpoint detection,” Scientific Reports 11, 12070 (2021).
T. Washio, G. Imamura, and G. Yoshikawa, “計測指向機械学習と嗅覚センシングの新展開,” 電子情報通信学会誌 (電気情報通信学会, 43-48 (2021).
Y. Tsuruma, E. Kawashima, Y. Nagasaki, T. Sekiya, G. Imamura, and G. Yoshikawa, “Amorphous thin-film oxide power devices operating beyond bulk single-crystal silicon limit,” Scientific Reports 11 (2021).
K. Shiba, G. Li, E. Virot, G. Yoshikawa, and D. A. Weitz, “Microchannel measurements of viscosity for both gases and liquids,” Lab Chip 21, 2805-2811 (2021).
K. Shiba, G. Imamura, and G. Yoshikawa, “Odor-Based Nanomechanical Discrimination of Fuel Oils Using a Single Type of Designed Nanoparticles with Nonlinear Viscoelasticity,” ACS Omega 6, 23389-23398 (2021).
M. Nishikawa, T. Murata, S. Ishihara, K. Shiba, L. K. Shrestha, G. Yoshikawa, K. Minami, and K. Ariga, “Discrimination of Methanol from Ethanol in Gasoline Using Membrane-Type Surface Stress Sensor Coated with Copper(I) Complex,” Bulletin of the Chemical Society of Japan 94, 648-654 (2021).
K. Minami, and G. Yoshikawa, “Effects of partial attachment at the interface between receptor and substrate on nanomechanical cantilever sensing,” Sensors and Actuators A: Physical 319, 112533 (2021).
K. Minami, K. Shiba, and G. Yoshikawa, “Sorption-induced static mode nanomechanical sensing with viscoelastic receptor layers for multistep injection-purge cycles,” Journal of Applied Physics 129, 124503 (2021).
K. Inada, H. Kojima, Y. Cho-Isoda, R. Tamura, G. Imamura, K. Minami, T. Nemoto, and G. Yoshikawa, “Statistical Evaluation of Total Expiratory Breath Samples Collected throughout a Year: Reproducibility and Applicability toward Olfactory Sensor-Based Breath Diagnostics,” Sensors (Basel) 21, 4742 (2021).
K. Homma, Y. Ohta, K. Minami, G. Yoshikawa, K. Nagase, A. M. Akimoto, and R. Yoshida, “Autonomous Nanoscale Chemomechanical Oscillation on the Self-Oscillating Polymer Brush Surface by Precise Control of Graft Density,” Langmuir 37, 4380-4386 (2021).
G. Yoshikawa, “膜型表面応力センサ(MSS),” 匂いのセンシング技術, edited by 中本高道 (シーエムシー出版, 93-101 (2020).
G. Yoshikawa, “嗅覚センサの構成要素と周辺技術の開発動向,” においのセンシング、分析とその可視化、数値化, edited by 技術情報協会 (技術情報協会, 165-174 (2020).
T. Yildirim, L. Zhang, G. P. Neupane, S. Chen, J. Zhang, H. Yan, M. M. Hasan, G. Yoshikawa, and Y. Lu, “Towards future physics and applications via two-dimensional material NEMS resonators,” Nanoscale 12, 22366-22385 (2020).
H. H. M. Yeung, G. Yoshikawa, K. Minami, and K. Shiba, “Strain-based chemical sensing using metal–organic framework nanoparticles,” Journal of Materials Chemistry A 8, 18007-18014 (2020).
T. Yakabe, G. Imamura, G. Yoshikawa, M. Kitajima, and A. N. Itakura, “Hydrogen detection using membrane-type surface stress sensor,” Journal of Physics Communications 4, 025005 (2020).
I. Osica, A. F. A. A. Melo, F. C. D. A. Lima, K. Shiba, G. Imamura, F. N. Crespilho, J. Betlej, K. J. Kurzydowski, G. Yoshikawa, and K. Ariga, “Nanomechanical Recognition and Discrimination of Volatile Molecules by Au Nanocages Deposited on Membrane-Type Surface Stress Sensors,” ACS Applied Nano Materials 3, 4061-4068 (2020).
H. T. Ngo, J. E. M. Lewis, D. T. Payne, F. D’Souza, J. P. Hill, K. Ariga, G. Yoshikawa, and S. M. Goldup, “Rotaxanation as a sequestering template to preclude incidental metal insertion in complex oligochromophores,” Chem Commun (Camb) 56, 7447-7450 (2020).
R. Nakakubo, M. Ishida, M. Tohno, H. Kobayashi, G. Yoshikawa, K. Minami, G. Imamura, H. Matsuzaka, and T. Nemoto, 2020).
K. Mistry, K. H. Ibrahim, I. Novodchuk, H. T. Ngo, G. Imamura, J. Sanderson, M. Yavuz, G. Yoshikawa, and K. P. Musselman, “Nanomechanical Gas Sensing with Laser Treated 2D Nanomaterials,” Advanced Materials Technologies 5, 2000704 (2020).
K. Minami, and G. Yoshikawa, “Finite Element Analysis of Interface Dependence on Nanomechanical Sensing,” Sensors (Basel, Switzerland) 20, 1518 (2020).
G. Imamura, and G. Yoshikawa, “Development of a Mobile Device for Odor Identification and Optimization of Its Measurement Protocol Based on the Free-Hand Measurement,” Sensors (Basel) 20, 6190 (2020).
G. Imamura, K. Minami, K. Shiba, K. Mistry, K. P. Musselman, M. Yavuz, G. Yoshikawa, K. Saiki, and S. Obata, “Graphene Oxide as a Sensing Material for Gas Detection Based on Nanomechanical Sensors in the Static Mode,” Chemosensors 8, 82 (2020).
T. H. Ngo, K. Minami, G. Imamura, K. Shiba, and G. Yoshikawa, “Membrane-type surface stress sensor for artificial olfactory system,” Chemical, Gas, and Biosensors for Internet of Things and Related Applications (Elsevier, 27-38 (2019).
K. Minami, T. Nemoto, G. Imamura, K. Shiba, R. Tamura, T. Washio, and G. Yoshikawa, “Integration of MSS and data analysis technology towards olfactory sensors,” Journal of Aroma Science Technology and Safety 20, 312-317 (2019).
K. Minami, G. Imamura, T. Nemoto, K. Shiba, and G. Yoshikawa, “Pattern recognition of solid materials by multiple probe gases,” Materials Horizons 6, 580-586 (2019).
G. Imamura, K. Shiba, G. Yoshikawa, and T. Washio, “Free-hand gas identification based on transfer function ratios without gas flow control,” Scientific Reports 9, 9768 (2019).
G. Yoshikawa, “Membrane-type Surface stress Sensor “MSS”,” Journal of Japan Association on Odor Environment 49, 291-296 (2018).
A. Yaegashi, G. Yoshikawa, T. Yokota, and Y. Aoki, “Industry-academia-government joint research framework towards de facto standard for olfactory IoT sensors/systems,” Journal of Japan Association on Odor Environment 49, 323-327 (2018).
K. Shiba, R. Tamura, T. Sugiyama, Y. Kameyama, K. Koda, E. Sakon, K. Minami, H. T. Ngo, G. Imamura, K. Tsuda, and G. Yoshikawa, “Functional nanoparticles-coated nanomechanical sensor arrays for machine learning-based quantitative odor analysis,” ACS Sensors 3, 1592-1600 (2018).
H. Ngo, K. Minami, G. Imamura, K. Shiba, and G. Yoshikawa, “Effects of Center Metals in Porphines on Nanomechanical Gas Sensing,” Sensors 18, 1640 (2018).
K. Minami, and G. Yoshikawa, “モバイル用途としても活用可能な『嗅覚IoTセンサ』の開発,” 臭いの測定法と消臭・脱臭技術 事例集 (技術情報協会, 404-408 (2018).
K. Minami, K. Shiba, and G. Yoshikawa, “Discrimination of structurally similar odorous molecules with various concentrations by using a nanomechanical sensor,” Analytical Methods 10, 3720-3726 (2018).
K. Minami, K. Shiba, T. H. Ngo, G. Imamura, and G. Yoshikawa, “Nanomechanical Sensors (MSS/AMA) for Odor/Mass Analyses,” Journal of the Mass Spectrometry Society of Japan 66, 25-29 (2018).
K. Minami, K. Shiba, G. Imamura, H. T. Ngo, and G. Yoshikawa, “Highly Sensitive and Selective Receptor Materials for Membrane-type Surface Stress Sensor (MSS) and their Applications as an Artificial Olfaction,” Journal of Japan Association on Odor Environment 49, 297-304 (2018).
K. Minami, T. H. Ngo, G. Imamura, K. Shiba, and G. Yoshikawa, “MSS(膜型表面応力センサ)を用いた嗅覚センサと応用展開,” 口・鼻・耳の感覚メカニズムと応用技術 (S&T出版, 224-234 (2018).
K. Minami, G. Imamura, K. Shiba, and G. Yoshikawa, 嗅覚 IoT センサに向けた総合的研究開発 2018), Vol. 20.
J. A. Jackman, N. J. Cho, M. Nishikawa, G. Yoshikawa, T. Mori, L. K. Shrestha, and K. Ariga, “Materials Nanoarchitectonics for Mechanical Tools in Chemical and Biological Sensing,” Chem Asian J 13, 3366-3377 (2018).
G. Imamura, G. Yoshikawa, and T. Washio, “New Data Analysis Methods for Sensing Signals Toward Pump-Free Olfactory Sensors,” Journal of Japan Association on Odor Environment 49, 315-322 (2018).
G. Imamura, K. Shiba, G. Yoshikawa, and T. Washio, “Analysis of nanomechanical sensing signals; physical parameter estimation for gas identification,” AIP Advances 8, 075007 (2018).
T. Washio, G. Imamura, and G. Yoshikawa, in 2017 IEEE International Conference on Data Science and Advanced Analytics (DSAA)2017), pp. 212-221.
K. Shiba, and G. Yoshikawa, “流体熱力学質量分析法の開発,” JIR常陽産研NEWS, 14 (2017).
K. Shiba, R. Tamura, G. Imamura, and G. Yoshikawa, “ニオイって実は超複雑で超有用 ~ニオイに秘められた情報に迫る新たなアプローチ~,” Academist Journal, 1 (2017).
K. Shiba, R. Tamura, G. Imamura, and G. Yoshikawa, “Data-driven nanomechanical sensing: specific information extraction from a complex system,” Scientific Reports 7, 3661 (2017).
K. Shiba, T. Takei, G. Yoshikawa, and M. Ogawa, “Deposition of a titania layer on spherical porous silica particles and their nanostructure-induced vapor sensing properties,” Nanoscale 9, 16791-16799 (2017).
I. Osica, A. F. A. A. Melo, G. Imamura, K. Shiba, Q. Ji, J. P. Hill, F. N. Crespilho, K. J. Kurzydłowski, G. Yoshikawa, and K. Ariga, “Fabrication of Silica-Protein Hierarchical Nanoarchitecture with Gas-Phase Sensing Activity,” Journal of Nanoscience and Nanotechnology 17, 5908-5917 (2017).
I. Osica, G. Imamura, K. Shiba, Q. Ji, L. K. Shrestha, J. P. Hill, K. J. Kurzydlowski, G. Yoshikawa, and K. Ariga, “Highly Networked Capsular Silica-Porphyrin Hybrid Nanostructures as Efficient Materials for Acetone Vapor Sensing,” ACS Appl Mater Interfaces 9, 9945-9954 (2017).
G. Imamura, K. Shiba, and G. Yoshikawa, “嗅覚センサ実現に向けた総合的研究開発,” おいしさの科学とビジネス展開の最前線 (シーエムシー出版, 160 (2017).
G. Imamura, K. Shiba, and G. Yoshikawa, “超小型・高感度センサ素子MSS を用いた嗅覚センサシステムの総合的研究開発,” 生体ガス計測と高感度ガスセンシング, 143 (2017).
G. Yoshikawa, “Membrane-type Surface Stress Sensor,” Nanocantilever Beams; Modeling, Fabrication, and Applications, edited by I. Voiculescu, and M. Zaghloul (Pan Stanford Publishing Pte. Ltd., USA), 221-242 (2016).
K. Shiba, and G. Yoshikawa, “Aero-Thermo-Dynamic Mass Analysis,” Scientific Reports 6, 28849 (2016).
G. Imamura, K. Shiba, and G. Yoshikawa, “Finite Element Analysis on Nanomechanical Sensing of Cellular Forces,” Analytical Sciences 32, 1189-1194 (2016).
G. Imamura, K. Shiba, and G. Yoshikawa, “Smell identification of spices using nanomechanical membrane-type surface stress sensors,” Japanese Journal of Applied Physics 55, 1102B1103 (2016).
G. Imamura, K. Shiba, and G. Yoshikawa, “Finite Element Analysis on Nanomechanical Detection of Small Particles: Toward Virus Detection,” Frontiers in Microbiology 7, 488 (2016).
K. Shiba, T. Sugiyama, T. Takei, and G. Yoshikawa, “Controlled growth of silica-titania hybrid functional nanoparticles through a multistep microfluidic approach,” Chemical Communications 51, 15854-15857 (2015).
K. Shiba, G. Imamura, and G. Yoshikawa, “Nanomechanical Sensors,” Biomaterials Nanoarchitectonics, edited by M. Ebara (Elsevier B. V., Amsterdam), 177-196 (2015).
F. Loizeau, T. Akiyama, S. Gautsch, P. Vettiger, G. Yoshikawa, and N. F. de Rooij, “Comparing membrane- and cantilever-based surface stress sensors for reproducibility,” Sensors and Actuators A: Physical 228, 9-15 (2015).
G. Yoshikawa, C. J. Y. Lee, and K. Shiba, “Effects of Coating Materials on Two Dimensional Stress-Induced Deflection of Nanomechanical Sensors,” Journal of Nanoscience and Nanotechnology 14, 2908-2912 (2014).
G. Yoshikawa, “Nanomechanical Membrane-Type Surface Stress Sensor (MSS),” Journal of the Surface Science Society of Japan 35, 571-576 (2014).
M. Tagaya, K. Shiba, and G. Yoshikawa, “New Development of Nano-Bio Surface and Interface Research Originated from Functional Inorganic Nanoparticles,” Function & Materials (CMC Publishing Co.,Ltd., Tokyo), 46-54 (2014).
R. J. S. Guerrero, F. Nguyen, and G. Yoshikawa, “Real-time gas identification on mobile platforms using a nanomechanical membrane-type surface stress sensor,” EPJ Techniques and Instrumentation 1, 9 (2014).
M. Ebara, M. Akimoto, K. Uto, K. Shiba, G. Yoshikawa, and T. Aoyagi, “Focus on the interlude between topographic transition and cell response on shape-memory surfaces,” Polymer 55, 5961-5968 (2014).
G. Yoshikawa, F. Loizeau, C. J. Y. Lee, T. Akiyama, K. Shiba, S. Gautsch, T. Nakayama, P. Vettiger, N. F. de Rooij, and M. Aono, “Double-Side-Coated Nanomechanical Membrane-Type Surface Stress Sensor (MSS) for One-Chip-One-Channel Setup,” Langmuir 29, 7551-7556 (2013).
L. K. Shrestha, R. G. Shrestha, K. Aramaki, G. Yoshikawa, and K. Ariga, “Demonstration of Solvent-Induced One-Dimensional Nonionic Reverse Micelle Growth,” The Journal of Physical Chemistry Letters 4, 2585-2590 (2013).
F. Loizeau, H. P. Lang, T. Akiyama, S. Gautsch, P. Vettiger, A. Tonin, G. Yoshikawa, C. Gerber, and N. de Rooij, in IEEE MEMS2013), pp. 621-624.
J. Y. Zhang, H. P. Lang, G. Yoshikawa, and C. Gerber, “Optimization of DNA Hybridization Efficiency by pH-Driven Nanomechanical Bending,” Langmuir 28, 6494-6501 (2012).
G. Yoshikawa, T. Akiyama, F. Loizeau, K. Shiba, S. Gautsch, T. Nakayama, P. Vettiger, N. F. d. Rooij, and M. Aono, “Two Dimensional Array of Piezoresistive Nanomechanical Membrane-type Surface Stress Sensor (MSS) with Improved Sensitivity,” Sensors 12, 15873-15887 (2012).
G. Yoshikawa, “Nanomechanical Sensors and Membrane-type Surface Stress Sensor (MSS) for Medical, Security and Environmental Applications,” Manipulation of Nanoscale Materials: An Introduction to Nanoarchitectonics, edited by K. Ariga (RSC Publishing, UK), 428-448 (2012).
G. Yoshikawa, “Nanomechanical Membrane-type Surface Stress Sensor (MSS) — for Medical, Security, and Environmental Applications,” Expected Materials for the Future (NTS, Japan), 53-55 (2012).
F. Loizeau, T. Akiyama, S. Gautsch, P. Vettiger, G. Yoshikawa, and N. de Rooij, in Procedia Engineering2012), pp. 1085-1088.
G. Yoshikawa, T. Akiyama, S. Gautsch, P. Vettiger, and H. Rohrer, “Nanomechanical Membrane-type Surface Stress Sensor,” Nano Letters 11, 1044-1048 (2011).
G. Yoshikawa, “Mechanical analysis and optimization of a microcantilever sensor coated with a solid receptor film,” Applied Physics Letters 98, 173502 (2011).
G. Yoshikawa, Y. Tsuruma, S. Ikeda, and K. Saiki, “Noble Metal-Intercalated Fullerene Fabricated by Low Temperature Co-deposition,” Advanced Materials 22, 43-46 (2010).
G. Yoshikawa, H.-P. Lang, T. Akiyama, L. Aeschimann, U. Staufer, P. Vettiger, M. Aono, T. Sakurai, and C. Gerber, “Sub-ppm detection of vapors using piezoresistive microcantilever array sensors,” Nanotechnology 20, 015501 (2009).
Y. Tsuruma, A. Al-Mahboob, S. Ikeda, J. T. Sadowski, G. Yoshikawa, Y. Fujikawa, T. Sakurai, and K. Saiki, “Real-time observation and control of pentacene film growth on the in-plane heterogeneous substrate,” Advanced Materials 21, 4996-5000 (2009).
R. Onoki, G. Yoshikawa, Y. Tsuruma, S. Ikeda, K. Saiki, and K. Ueno, “Nanotransfer of the Polythiophene Molecular Alignment onto the Step-Bunched Vicinal Si(111) Substrate,” Langmuir 24, 11605-11610 (2008).
G. Yoshikawa, J. T. Sadowski, A. Al-Mahboob, Y. Fujikawa, T. Sakurai, Y. Tsuruma, S. Ikeda, and K. Saiki, “Spontaneous aggregation of pentacene molecules and its influence on field effect mobility,” Applied Physics Letters 90, 251906 (2007).
M. Kiguchi, S. Entani, S. Ikeda, G. Yoshikawa, I. Nakal, H. Kondoh, T. Ohta, and K. Saiki, “Electronic structure of octane on Cu(111) and Ni(111) studied by near edge X-ray absorption fine structure,” Surface Science 601, 4074-4077 (2007).
Y. Fujikawa, Y. Yamada-Takamura, G. Yoshikawa, T. Ono, M. Esashi, P. P. Zhang, M. G. Lagally, and T. Sakurai, “Silicon on insulator for symmetry-converted growth,” Applied Physics Letters 90, 243107 (2007).
Y. Fujikawa, Y. Yamada-Takamura, Z. T. Wang, G. Yoshikawa, and T. Sakurai, in International Workshop on Advanced Materials, edited by Y. Fujikawa, K. Nakajima, and T. Sakurai (Springer-Verlag Berlin, Sendai, JAPAN, 2007), pp. 295-303.
Y. Fujikawa, J. T. Sadowski, A. Al-Mahboob, G. Yoshikawa, K. Nakajima, and T. Sakurai, “Nanoscale Observation of Interface Formation Process between Semiconductor Surface and Pentacene Thin Film,” Journal of the Vacuum Society of Japan 50, 723-728 (2007).
G. Yoshikawa, T. Miyadera, R. Onoki, K. Ueno, I. Nakai, S. Entani, S. Ikeda, D. Guo, M. Kiguchi, H. Kondoh, T. Ohta, and K. Saiki, “In-situ measurement of molecular orientation of the pentacene ultrathin films grown on SiO2 substrates,” Surface Science 600, 2518-2522 (2006).
R. Onoki, K. Ueno, H. Nakahara, G. Yoshikawa, S. Ikeda, S. Entani, T. Miyadera, I. Nakai, H. Kondoh, T. Ohta, M. Kiguchi, and K. Saiki, “Anisotropic polymerization of a long-chain diacetylene derivative Langmuir-Blodgett film on a step-bunched SiO2/Si surface,” Langmuir 22, 5742-5747 (2006).
M. Kiguchi, G. Yoshikawa, K. Saiki, R. Arita, and H. Aoki, “Metal induced gap states at tetratetracontane/Cu interface,” Journal De Physique IV 132, 199-203 (2006).
H. Inoue, G. Yoshikawa, and K. Saiki, “Molecular chain structure of alpha-sexithienyl on Ag(110) observed by scanning tunneling microscopy,” Japanese Journal of Applied Physics Part 1-Regular Papers Brief Communications & Review Papers 45, 1794-1796 (2006).
S. Entani, S. Ikeda, M. Kiguchi, K. Saiki, G. Yoshikawa, I. Nakai, H. Kondoh, and T. Ohta, “Growth of nanographite on Pt(111) and its edge state,” Applied Physics Letters 88, 153126 (2006).
G. Yoshikawa, “Evaluation of Structures and Orientation Distribution Function of α-Sexithienyl Ultrathin films Grown Heteroepitaxially on Metal Substrates,” Journal of The Spectroscopical Society of Japan 54, 90-96 (2005).
M. Kiguchi, G. Yoshikawa, S. Ikeda, and K. Saiki, “Electronic properties of metal-induced gap states formed at alkali-halide/metal interfaces,” Physical Review B 71, 153401 (2005).
M. Kiguchi, R. Arita, G. Yoshikawa, Y. Tanida, S. Ikeda, S. Entani, I. Nakai, H. Kondoh, T. Ohta, K. Saiki, and H. Aoki, “Metal-induced gap states in epitaxial organic-insulator/metal interfaces,” Physical Review B 72, 075446 (2005).
G. Yoshikawa, M. Kiguchi, S. Ikeda, and K. Saiki, “Molecular orientations and adsorption structures of alpha-sexithienyl thin films grown on Ag(110) and Ag(111) surfaces,” Surface Science 559, 77-84 (2004).
M. Kiguchi, G. Yoshikawa, S. Ikeda, and K. Saiki, “Molecular orientation control of sexithienyl thin film on Cu substrates,” Surface Science 566, 603-607 (2004).
M. Kiguchi, G. Yoshikawa, S. Ikeda, and K. Saiki, “Metal induced gap states at alkali halide/metal interface,” Applied Surface Science 237, 494-497 (2004).
M. Kiguchi, S. Entani, K. Saiki, and G. Yoshikawa, “One-dimensional ordered structure of alpha-sexithienyl on Cu(110),” Applied Physics Letters 84, 3444-3446 (2004).
G. Yoshikawa, M. Kiguchi, K. Ueno, A. Koma, and K. Saiki, “Visible light photoemission and negative electron affinity of single-crystalline CsCl thin films,” Surface Science 544, 220-226 (2003).
M. Kiguchi, G. Yoshikawa, and K. Saiki, “Temperature and thickness dependence of molecular orientation of alpha-sexithienyl on Cu(111),” Journal of Applied Physics 94, 4866-4870 (2003).
M. Kiguchi, M. Katayama, G. Yoshikawa, K. Saiki, and A. Koma, “Metal induced gap states at LiCl-Cu(001) interface studied by X-ray absorption fine structure,” Applied Surface Science 212, 701-704 (2003).
M. Kiguchi, R. Arita, G. Yoshikawa, Y. Tanida, M. Katayama, K. Saiki, A. Koma, and H. Aoki, “Metal-induced gap states at well defined alkali-halide/metal interfaces,” Physical Review Letters 90, 196803 (2003).
