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Create the Future with Fibers
"繊維"で未来を編む

学術論文

[42] K. Takagaki, K. Takahashi, T. Hayashi, S. Takeuchi, N. Kuwahara, Y. Ishii,“Mask-Type Acoustic Sensor Featuring a Conventional Disposable Mask Embedded with Electrospun Poly(styrene) Fiber Mats”, Advanced Energy and Sustainability Research, Available online, DOI:10.1002/aesr.202300228

[41] Y. Ishii,“Geometrical and electrostatic densities in a highly sparse as-electrospun polystyrene microfiber mat”, Mater. Lett. X, 20, 100221-1-100221-4 (2023)

[40] K. Tonomura, A. Yu, Y. Ishii,“Active signal-generating spacer-fabric-type continuous touch/pressure sensor”, Smart Materials and Structures 32(3), 035029-1-035029-9 (2023)

[39] A. Yu, Y. Matsui, K. Tonomura, Y. Ishii, “Development of knitted capacitive pressure sensor with spacer fabric structure”, Mechanics of Advanced Materials and Structures, 30(22), 4663-4670 (2023)

[38] C. Iumsrivun, K. Matsuda, S. Ohkubo, Y. Ishii, “Variable direct electromechanical properties of as-electrospun polystyrene microfiber mats with different electrospinning conditions”, Poymers 14(9), 1840-1-1840-15 (2022)

[37] Y. Ishii, K. Sanemoto, C. Iumsrivun, “Multi-sensing dye-doped electrospun polystyrene microfiber mats”, Mater. Chem. Phys. 278, 125666-1-125666-8 (2022)

[36] C. Iumsrivun, T. Yui, A. Yokoyama, Y. Ishii, “Quasistatic direct electromechanical responses from as-electrospun submicron/micron fiber mats of several polymers”, Polymer, 224, 123732-1-123732-8 (2021)

[35] Y. Ishii, “Investigation of electromechanical properties of as-electrospun polystyrene fiber mat via sequential approaching/loading technique”, Sens. Actuator A Phys. 326, 112717-1-112717-6 (2021)

[34] T.S. Ramadoss, Y. Ishii, A. Chinnappan, M.H. Ang, S. Ramakrishna, “Fabrication of Pressure Sensor Using Electrospinning Method for Robotic Tactile Sensing Application”, Nanomaterials, 11(5), 1320-1-1320-10 (2021)

[33] Y. Ishii, Y.M. Yousry, T. Nobeshima, C. Iumsrivun, H. Sakai, S. Uemura, S. Ramakrishna, K. Yao“Electromechanically active as-electrospun polystyrene fiber mat: Significantly high quasistatic/dynamic electromechanical response and theoretical modeling”, Macromol. Rapid Commun. 41, 2000218-1-2000218-8 (2020)(Highlighted in Front Cover Picture).

[32] Y. Ishii, S. Kurihara,“Charge generation from as-electrospun polystyrene fiber mat with uncontacted/contacted electrode”, Appl. Phys. Lett. 115, 203904 (2019)

[31] R. Kato, H. Kahara, Y. Ishii, T. Hattori,“Anion sensing properties of electrospun nanofibers incorporating a thiourea-based chromoionophore in methanol”, Spectrochim. Acta A Mol. Biomol. Spectrosc. 228, 117656-1-117656-5 (2020)

[30] O.O. Ogunleye, H. Sakai, Y. Ishii, H. Murata,“Investigation of the sensing mechanism of dual-gate low-voltage organic transistor based pressure sensor”, Org. Electron. 75, 105431-1-105431-5 (2019)

[29] Y. Ishii, S. Kurihara, R. Kitayama, H. Sakai, Y. Nakabayashi, T. Nobeshima, S. Uemura,“High electromechanical response from bipolarly charged as-electrospun polystyrene fibre mat”, Smart Mater. Struct. 28, 08LT02-1-08LT02-6 (2019)

[28] Y. Ishii,“Significant reduction in propagation loss in electrospun polymer fibers by adopting thermal drawing”, Polymer, 159, 146-149 (2018)

[27] Y. Ishii, K. Omori, H. Sakai, Y. Arakawa, and M. Fukuda,“Versatile Approach for Reducing Propagation Loss in Wet-Electrospun Polymer Fiber Waveguides”, ACS Omega, 3, 6787-6793 (2018)

[26] T. Nobeshima, Y. Ishii, H. Sakai, S. Uemura, M. Yoshida,“Electrospun poly(methyl methacrylate) fibrous mat showing piezoelectric properties”, Jpn. J. Appl. Phys. 57, 05GC06-1-05GC06-5 (2018)

[25] K. Nakayama, Y. Tonooka, M. Ota, Y. Ishii, M. Fukuda, “Passive Plasmonic Demultiplexers Using Multimode Interference”, J. Lightwave Technol. 36, 1979-1984 (2018)

[24] Y. Ishii, T. Nobeshima, H. Sakai, K. Omori, S. Uemura, M. Fukuda, “Amorphous Electrically Actuating Submicron Fiber Waveguides”, Macromol. Mater. Eng. 303, 1700302-1-1700302-9 (2018). (Highlighted in Front Cover Picture).

[23] S. Okahisa, K. Nakayama, Y. Nakayama, Y. Ishii, M. Fukuda, “Guiding Properties of 1.31- and 1.55-μm-Wavelength Surface Plasmon Polaritons on Striped Waveguides on Silicon and their Wavelength-Selective Detection”, IEEE/OSA J. Lightwave Technol. 35, 2702-2711 (2017)

[22] Y. Ishii, K. Omori, S. Satozono, M. Fukuda, “Dye-Doped Submicron Fiber Waveguides Composed of Hole- and Electron-Transport Materials”, Org. Electron. 41, 215-220 (2017)

[21] A. Sumimura, M. Ota, K. Nakayama, M. Ito, Y. Ishii, M. Fukuda, “Low-Return-Loss Plasmonic Multiplexer with Tapered Structure” IEEE Photonic. Tech. L. 28, 2419-2422 (2016)

[20] H. Sakai, S. Okahisa, Y. Nakayama, K. Nakayama, M. Fukuhara, Y. Kimura, Y. Ishii, M. Fukuda, “Plasmonic and electronic device-based integrated circuits and their characteristics” Solid-State Electron. 125, 240-246 (2016)

[19] Y. Ishii, S. Satozono, K. Omori, M. Fukuda, “Waveguiding Properties in Dye-doped Submicron Poly(N-vinylcarbazole) Fibers”, J. Polym. Sci. Pt. B Polym. Phys. 54, 1237-1244 (2016)

[18] T. Nobeshima, H. Sakai, Y. Ishii, S. Uemura, M. Yoshida, “Polarized FT-IR Study of Uniaxially Aligned Electrospun Poly(DL-Lactic Acid) Fiber Films”, J. Photopolym. Sci. Tech. 29, 353-356 (2016)

[17] T. Nobeshima, Y. Ishii, H. Sakai, S. Uemura, M. Yoshida, “Actuation Behavior of Polylactic Acid Fiber Films Prepared by Electrospinning”, J. Nanosci. Nanotechnol. 16, 3349-3354 (2016)

[16] M. Ota, A. Sumimura, M. Fukuhara, Y. Ishii, M. Fukuda, "Plasmonic-multimode-interference-based logic circuit with simple phase adjustment", Sci. Rep. 6, 24546-1-24546-6 (2016)

[15] T. Nobeshima, Y. Ishii, H. Sakai, S. Uemura, M. Yoshida, “Study of Thermally Stimulated Current in Fibrous Poly(DL-Lactic Acid) Films Exhibiting Piezoelectric-Like Behavior”, J. Photopolym. Sci. Tech. 28, 369-372 (2015)

[14] M. Ota, M. Fukuhara, A. Sumimura, M. Ito, T. Aihara, Y. Ishii, M. Fukuda, “Dielectric-loaded surface plasmon polariton crossing waveguides using multimode interference”, Opt. Lett. 40, 2269-2264 (2015)

[13] T. Aihara, H. Sakai, A. Takeda, S. Okahisa, M. Fukuhara, M. Ota, Y. Ishii, M. Fukuda, “Coherent Plasmonic Interconnection in Silicon-based Electrical Circuit”, J. Lightwave Technol., 33, 2139 - 2145 (2015)

[12] Y. Ishii, S. Satozono, R. Kaminose, M. Fukuda, “Origin of high propagation loss in electrospun polymer nanofibers”, APL Mater. 2, 066104-1-066104-7 (2014)

[11] A. Takeda, T. Aihara, M. Fukuhara, Y. Ishii, M. Fukuda, “Schottky-type surface plasmon detector with nano-slit grating using enhanced resonant optical transmission”, J. Appl. Phys. 116, 084313-1-084313-5 (2014)

[10] M. Fukuhara, M. Ota, A. Takeda, T. Aihara, H. Sakai, Y. Ishii, M. Fukuda, “Surface-Plasmon Waveguides as Transmission Lines for Optical Signal and Electrical Bias”, J. Lightwave Technol., 32, 3888–3893 (2014)

[9] M. Fukuhara, M. Ota, H. Sakai, T. Aihara, Y. Ishii, M. Fukuda, “Low-loss waveguiding and detecting structure for surface plasmon polaritons”, Appl. Phys. Lett. 104, 081111-1-081111-4 (2014)

[8] T. Ishiyama, T. Fujii, Y. Ishii, M. Fukuda, “Effects of Gas Flow Rate on Structural Features of ZnO Nanowire Arras Fabricated on Silicon substrate”, Jpn. J. Appl. Phys. 53, 02BD03-1-02BD03-5 (2014)

[7] Y. Ishii, R. Kaminose, M. Fukuda, “Polymer-clad electrospun polymer nanofiber waveguides”, Mater. Lett. 108, 270-272 (2013)

[6] T. Aihara, M. Fukuhara, A. Takeda, B. Lim, M. Futagawa, Y. Ishii, K. Sawada, M. Fukuda, “Monolithic Integration of Surface Plasmon Detector and Metal–Oxide–Semiconductor Field-Effect Transistors”, IEEE Photon. J. 5, 6800609-1-6800609-10 (2013)

[5] Y. Ishii, H. Murata, “True photoluminescence spectra revealed in electrospun light-emitting single nanofibers” J. Mater. Chem. 22, 4695-4703 (2012)

[4] Y. Ishii, H. Sakai, H. Murata, “Fabrication of a submicron-channel organic field-effect transistor using a controllable electrospun single fibre as a shadow mask” Nanotechnology, 22, 205202-1-205202-6 (2011)

[3] Y. Ishii, H. Sakai, H. Murata, “Fabrication of a submicron patterned electrode using an electrospun single fiber as a shadow-mask” Thin solid films, 518, 647-650 (2009)

[2] Y. Ishii, H. Sakai, H. Murata, “A new electrospinning method to control the number and a diameter of uniaxially aligned polymer fibers” Mater. Lett. 62, 3370-3372 (2008)

[1] M. Campoy-Quiles, Y. Ishii, H. Sakai, H. Murata, “Highly polarized luminescence from aligned conjugated polymer electrospun nanofibers” Appl. Phys. Lett., 92, 213305-1-213305-3 (2008)