論文

[1]          K. Shiba, R. Tamura, G. Imamura, and G. Yoshikawa, “Data-driven nanomechanical sensing: specific information extraction from a complex system,” Sci Rep 7, 3661 (2017).

[2]          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).

[3]          K. Shiba, and G. Yoshikawa, “Aero-Thermo-Dynamic Mass Analysis,” Sci Rep 6, 28849 (2016).

[4]          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).

[5]          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).

[6]          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).

[7]          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).

[8]          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).

[9]          G. Yoshikawa, “Nanomechanical Membrane-Type Surface Stress Sensor (MSS),” Journal of the Surface Science Society of Japan 35, 571-576 (2014).

[10]        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).

[11]        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).

[12]        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).

[13]        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).

[14]        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).

[15]        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).

[16]        G. Yoshikawa, T. Akiyama, S. Gautsch, P. Vettiger, and H. Rohrer, “Nanomechanical Membrane-type Surface Stress Sensor,” Nano Letters 11, 1044-1048 (2011).

[17]        G. Yoshikawa, “Mechanical analysis and optimization of a microcantilever sensor coated with a solid receptor film,” Applied Physics Letters 98, 173502 (2011).

[18]        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).

[19]        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).

[20]        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).

[21]        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).

[22]        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).

[23]        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).

[24]        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).

[25]        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).

[26]        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).

[27]        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).

[28]        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).

[29]        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).

[30]        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).

[31]        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).

[32]        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).

[33]        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).

[34]        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).

[35]        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).

[36]        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).

[37]        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).

[38]        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).

[39]        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).

[40]        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).

[41]        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).