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原著論文 Original Papers
解説・総説  Reviews
著書  Books
雑文  Miscellaneous


原著論文 Original Papers

2018

      • “Spherical spontaneous capillary-wave resonance on optically trapped aerosol droplet”
        T. Endo, K. Ishikawa, M. Fukuyama, M. Uraoka, S. Ishizaka and A. Hibara,
        The Journal of Physical Chemistry C, accepted (2018).
        10.1021/acs.jpcc.8b03784
      • “Zeta potential determination with a microchannel fabricated in solidified solvents”
        A. Inagawa, M. Fukuyama, A. Hibara, M. Harada and T. Okada,
        Journal of Colloid and Interface Science, 532, 231-235 (2018).
        https://doi.org/10.1016/j.jcis.2018.07.137
      • “A compact fluorescence polarization analyzer with high-transmittance liquid crystal layer ”
        O. Wakao, K. Satou, A. Nakamura, K. Sumiyoshi, M. Shirokawa, C. Mizokuchi, K. Shiota, M. Maeki, A. Ishida, H. Tani, K. Shigemura, A. Hibara,  M. Tokeshi
        Review of Scientific Instruments89, 024103 (2018). DOI: 10.1063/1.5017081
      • “Dynamic wettability of polyethylene glycol-modified poly(dimethylsiloxane) surfaces in an aqueous/organic two-phase system”
        M. Fukuyama, M. Tokeshi, M.A. Proskurnin, A. Hibara
        Lab on a Chip, 18, 356-361 (2018) .
        10.1039/C7LC01121K
      • “Hemichrome Determination by Thermal Lensing with Polyethylene Glycols for Signal Enhancement in Aqueous Solutions”
        V. R. Galimova, M. Liu, M. Franko, D. S. Volkov, A. Hibara, M. A. Proskurnin
        Analytical Letters, 51, 1743-1762 (2018).
        10.1080/00032719.2017.1391828

 

2017

        • “Enhanced chiral recognition by β-cyclodextrin at liquid/liquid interfaces as revealed by chromatographic and interfacial tension measurements”
          Y. Iimura, M. Fukuyama, A. Hibara, M. Harada, T. Okada
          Journal of Colloid and Interface Science, 508   469-475 (2017).
          10.1016/j.jcis.2017.08.073
        • “Kinetic Switching of the Concentration/Separation Behavior of Microdroplets”
          M. Fukuyama, A. Hibara, Y. Yoshida, K. Maeda
          Analytical Chemistry89 (17)  9279–9283 (2017).
          10.1021/acs.analchem.7b02062
        • “Optical Surface Tension Measurement of Two-dimensionally Confined Liquid Surfaces”
          M. Chung, C. Pigot, S. Volz, A. Hibara
          Analytical Chemistry89 (15)  8092–8096 (2017).
          10.1021/acs.analchem.7b01611

        • “Top-and-side dual-view microfluidic device with embedded prism”
          Y. Kazama, E.T. Carlen, A. van den Berg, and A. Hibara,
          Sensors and Actuators B: Chemical, 248, 753–760 (2017).
          10.1016/j.snb.2017.04.013

-2016

        • “Efficient thermal lens nanoparticle detection in a flow-focusing microfluidic device”
          S. Yamaoka, Y. Kataoka, Y. Kazama, Y. Fujii and A. Hibara,
          Sensors and Actuators B: Chemical 2016, 228, 581-586.
          10.1016/j.snb.2016.01.072

        • “Shear-driven flow ice chromatography as a possible tool probing ice/water interface”
          M. Shimizu, M. Harada, A. Hibara and T. Okada,
          Analytical Sciences 2016, 32, 805-808.
          10.2116/analsci.32.805
        • “Integrated micro-optics for microfluidic detection”
          Y. Kazama and A. Hibara,
          Analytical Sciences 2016, 32, 99-102.
          10.2116/analsci.32.99
        • “Fluorescence polarization measurement system using a liquid crystal layer and an image sensor”
          O. Wakao, Y. Fujii, M. Maeki, A. Ishida, H. Tani, A. Hibara and M. Tokeshi,
          Analytical Chemistry 2015, 87, 9647-9652.
          10.1021/acs.analchem.5b01164

        • “Microfluidic selective concentration of microdroplet contents by spontaneous emulsification”
          M. Fukuyama and A. Hibara,
          Analytical Chemistry 2015, 87, 3562-3565.
          10.1021/acs.analchem.5b00155

        • “Microfluidic protein crystallisation controlled using spontaneous emulsification”
          M. Fukuyama, A. Akiyama, M. Harada, T. Okada and A. Hibara,
          Analytical Methods 2015, 7, 7128-7131.
          10.1039/c5ay00578g

        • “Measurement of vibrational spectrum of liquid using monochromated scanning transmission electron microscopy-electron energy loss spectroscopy”
          T. Miyata, M. Fukuyama, A. Hibara, E. Okunishi, M. Mukai and T. Mizoguchi,
          Microscopy 2014, 63, 377-382.
          10.1093/jmicro/dfu023
        • “An estimation of molecular dynamic behaviour in a liquid using core-loss spectroscopy”
          Y. Matsui, K. Seki, A. Hibara and T. Mizoguchi,
          Scientific Reports 2013, 3,3503 10.1038/srep03503
        • “Time-resolved electrochemical measurement device for microscopic liquid interfaces during droplet formation”
          M. Fukuyama, Y. Yoshida, J. C. T. Eijkel, A. van den Berg and A. Hibara,
          Microfluidics and Nanofluidics 2013, 14, 943-950.
          10.1007/s10404-012-1101-9
        • “Direct measurements of the saturated vapor pressure of water confined in extended nanospaces using capillary evaporation phenomena”
          T. Tsukahara, T. Maeda, A. Hibara, K. Mawatari and T. Kitamori,
          Rsc Advances 2012, 2, 3184-3186.
          10.1039/c2ra01330d

        • “Surface tension measurement at the microscale by passive resonance of capillary waves”
          C. Pigot and A. Hibara,
          Analytical Chemistry 2012, 84, 2557-2561.
          10.1021/ac3000804

        • “Shape of the liquid-liquid interface in micro counter-current flows”
          A. Aota, A. Hibara, Y. Sugii and T. Kitamori,
          Analytical Sciences 2012, 28, 9-12.
          10.2116/analsci.28.9
        • “Comparison of performance parameters of photothermal procedures in homogeneous and heterogeneous systems”
          M. A. Proskurnin, E. S. Ryndina, D. S. Tsar’kov, V. M. Shkinev, A. Smirnova and A. Hibara,
          Analytical Sciences 2011, 27, 381-387.
          10.2116/analsci.27.381
        • “Release of encapsulated content in microdroplets”
          M. Fukuyama and A. Hibara,
          Analytical Sciences 2011, 27, 671-672.
          10.2116/analsci.27.671
        • “Development of a micro droplet collider; the liquid-liquid system utilizing the spatial-temporal localized energy”
          K. Takahashi, K. Mawatari, Y. Sugii, A. Hibara and T. Kitamori,
          Microfluidics and Nanofluidics 2010, 9, 945-953.
          10.1007/s10404-010-0622-3
        • “Femto liquid chromatography with attoliter sample separation in the extended nanospace channel”
          M. Kato, M. Inaba, T. Tsukahara, K. Mawatari, A. Hibara and T. Kitamori,
          Analytical Chemistry 2010, 82, 543-547.
          10.1021/ac9017605
        • “Electrochemical studies on liquid properties in extended nanospaces using mercury microelectrodes”
          T. Tsukahara, T. Kuwahata, A. Hibara, H.-B. Kim, K. Mawatari and T. Kitamori,
          Electrophoresis 2009, 30, 3212-3218.
          10.1002/elps.200900155
        • “Lateral spatial resolution of thermal lens microscopy during continuous scanning for nonstaining biofilm imaging”
          T. T. J. Rossteuscher, A. Hibara, K. Mawatari and T. Kitamori,
          Journal of Applied Physics 2009, 105,10.1063/1.3116137
        • “Circulation microchannel for liquid-liquid microextraction”
          Y. Kikutani, K. Mawatari, A. Hibara and T. Kitamori,
          Microchimica Acta 2009, 164, 241-247.
          10.1007/s00604-008-0065-7
        • “Phase separation of gas-liquid and liquid-liquid microflows in microchips”
          A. Aota, K. Mawatari, S. Takahashi, T. Matsumoto, K. Kanda, R. Anraku, A. Hibara, M. Tokeshi and T. Kitamori,
          Microchimica Acta 2009, 164, 249-255.
          10.1007/s00604-008-0085-3
        • “Development of a pressure-driven nanofluidic control system and its application to an enzymatic reaction”
          T. Tsukahara, K. Mawatari, A. Hibara and T. Kitamori,
          Analytical and Bioanalytical Chemistry 2008, 391, 2745-2752.
          10.1007/s00216-008-2198-2
        • “Pesticide analysis by mekc on a microchip with hydrodynamic injection from organic extract”
          A. Smirnova, K. Shimura, A. Hibara, M. A. Proskurnin and T. Kitamori,
          Journal of Separation Science 2008, 31, 904-908.
          10.1002/jssc.200700533
        • “Thermooptical detection in microchips: From macro- to micro-scale with enhanced analytical parameters”
          A. Smirnova, M. A. Proskurnin, S. N. Bendrysheva, D. A. Nedosekin, A. Hibara and T. Kitamori,
          Electrophoresis 2008, 29, 2741-2753.
          10.1002/elps.200700914
        • “Microfluidic distillation utilizing micro-nano combined structure”
          A. Hibara, K. Toshin, T. Tsukahara, K. Mawatari and T. Kitamori,
          Chemistry Letters 2008, 37, 1064-1065.
          10.1246/cl.2008.1064
        • “Nmr study of water molecules confined in extended nanospaces”
          T. Tsukahara, A. Hibara, Y. Ikeda and T. Kitamori,
          Angewandte Chemie-International Edition 2007, 46, 1180-1183.
          10.1002/anie.200604502
        • “Tuning microchannel wettability and fabrication of multiple-step laplace valves”
          G. Takei, M. Nonogi, A. Hibara, T. Kitamori and H.-B. Kim,
          Lab on a Chip 2007, 7, 596-602.
          10.1039/b618851f
        • “Application of a micro multiphase laminar flow on a microchip for extraction and determination of derivatized carbamate pesticides”
          A. Smirnova, K. Shimura, A. Hibara, M. A. Proskurnin and T. Kitamori,
          Analytical Sciences 2007, 23, 103-107.
          10.2116/analsci.23.103
        • “Highly sensitive detection of non-labeled peptides using uv excitation thermal lens microscope/liquid chromatography”
          S. Hiki, M. Tokeshi, M. Kakuta, K. Mawatari, Y. Kikutani, K. Sato, A. Hibara, K. Shimura, N. Uchida and T. Kitamori,
          Bunseki Kagaku 2007, 56, 1-7.
          10.2116/bunsekikagaku.56.1
        • “Countercurrent laminar microflow for highly efficient solvent extraction”
          A. Aota, M. Nonaka, A. Hibara and T. Kitamori,
          Angewandte Chemie-International Edition 2007, 46, 878-880.
          10.1002/anie.200600122
        • “Flow velocity profile of micro counter-current flows”
          A. Aota, A. Hibara, K. Shinohara, Y. Sugii, K. Okamoto and T. Kitamorii,
          Analytical Sciences 2007, 23, 131-133.
          10.2116/analsci.23.131
        • “Pressure balance at the liquid-liquid interface of micro countercurrent flows in microchips”
          A. Aota, A. Hibara and T. Kitamori,
          Analytical Chemistry 2007, 79, 3919-3924.
          10.1021/ac070031d
        • “Miniaturized thermal lens and fluorescence detection system for microchemical chips”
          M. Yamauchi, M. Tokeshi, J. Yamaguchi, T. Fukuzawa, A. Hattori, A. Hibara and T. Kitamori,
          Journal of Chromatography a 2006, 1106, 89-93.
          10.1016/j.chroma.2005.09.091
        • “Circular dichroism thermal lens microscope for sensitive chiral analysis on microchip”
          M. Yamauchi, K. Mawatari, A. Hibara, M. Tokeshi and T. Kitamori,
          Analytical Chemistry 2006, 78, 2646-2650.
          10.1021/ac0519920
        • “Total reflection x-ray fluorescence analysis with chemical microchip”
          K. Tsuji, Y. Hanaoka, A. Hibara, M. Tokeshi and T. Kitamori,
          Spectrochimica Acta Part B-Atomic Spectroscopy 2006, 61, 389-392.
          10.1016/j.sab.2006.01.015
        • “Pressure-driven flow control system for nanofluidic chemical process”
          E. Tamaki, A. Hibara, H.-B. Kim, M. Tokeshi and T. Kitamori,
          Journal of Chromatography a 2006, 1137, 256-262.
          10.1016/j.chroma.2006.10.097
        • “Liquid filling method for nanofluidic channels utilizing the high solubility of co2”
          E. Tamaki, A. Hibara, H. Kim, M. Tokeshi, T. Ooi, M. Nakao and T. Kitamori,
          Analytical Sciences 2006, 22, 529-532.
          10.2116/analsci.22.529
        • “Micro-multiphase laminar flows for the extraction and detection of carbaryl derivative”
          A. Smirnova, K. Mawatari, A. Hibara, M. Proskurnin and T. Kitamori,
          Analytica Chimica Acta 2006, 558, 69-74.
          10.1016/j.aca.2005.10.073
        • “Microchip-based liquid-liquid extraction for gas-chromatography analysis of amphetamine-type stimulants in urine”
          H. Miyaguchi, M. Tokeshi, Y. Kikutani, A. Hibara, H. Inoue and T. Kitamori,
          Journal of Chromatography a 2006, 1129, 105-110.
          10.1016/j.chroma.2006.06.107
        • “Supercooled micro flows and application for asymmetric synthesis”
          S. Matsuoka, A. Hibara, M. Ueno and T. Kitamori,
          Lab on a Chip 2006, 6, 1236-1238.
          10.1039/b602454h
        • “Uv excitation thermal lens microscope for sensitive and nonlabeled detection of nonfluorescent molecules”
          S. Hiki, K. Mawatari, A. Hibara, M. Tokeshi and T. Kitamori,
          Analytical Chemistry 2006, 78, 2859-2863.
          10.1021/ac051967u
        • “Grazing-exit and micro x-ray fluorescence analyses for chemical microchips”
          K. Tsuji, T. Emoto, Y. Nishida, E. Tamaki, Y. Kikutani, A. Hibara and T. Kitamori,
          Analytical Sciences 2005, 21, 799-803.
          10.2116/analsci.21.799
        • “Tunable thermal lens spectrometry utilizing microchannel-assisted thermal lens spectrometry”
          E. Tamaki, A. Hibara, M. Tokeshi and T. Kitamori,
          Lab on a Chip 2005, 5, 129-131.
          10.1039/b413218a
        • “Effect of korteweg stress in miscible liquid two-layer flow in a microfluidic device”
          Y. Sugii, K. Okamoto, A. Hibara, M. Tokeshi and T. Kitamori,
          Journal of Visualization 2005, 8, 117-124.
          10.1007/BF03181654
        • “Rapid proton diffusion in microfluidic devices by means of micro-lif technique”
          K. Shinohara, Y. Sugii, A. Hibara, M. Tokeshi, T. Kitamori and K. Okamoto,
          Experiments in Fluids 2005, 38, 117-122.
          10.1007/s00348-004-0906-z
        • “Surface modification method of microchannels for gas-liquid two-phase flow in microchips”
          A. Hibara, S. Iwayama, S. Matsuoka, M. Ueno, Y. Kikutani, M. Tokeshi and T. Kitamori,
          Analytical Chemistry 2005, 77, 943-947.
          10.1021/ac0490088
        • “Measurement of ph field of chemically reacting flow in microfluidic devices by laser-induced fluorescence”
          K. Shinohara, Y. Sugii, K. Okamoto, H. Madarame, A. Hibara, M. Tokeshi and T. Kitamori,
          Measurement Science & Technology 2004, 15, 955-960.
          10.1088/0957-0233/15/5/025
        • “High-speed micro-piv measurements of transient flow in microfluidic devices”
          K. Shinohara, Y. Sugii, A. Aota, A. Hibara, M. Tokeshi, T. Kitamori and K. Okamoto,
          Measurement Science & Technology 2004, 15, 1965-1970.
          10.1088/0957-0233/15/10/003
        • “An interface chip connection between capillary electrophoresis and thermal lens microscope”
          K. Uchiyama, A. Hibara, K. Sato, H. Hisamoto, M. Tokeshi and T. Kitamori,
          Electrophoresis 2003, 24, 179-184.
          10.1002/elps.200390011
        • “Chemical processing on microchips for analysis, synthesis, and bioassay”
          M. Tokeshi, Y. Kikutani, A. Hibara, K. Sato, H. Hisamoto and T. Kitamori,
          Electrophoresis 2003, 24, 3583-3594.
          10.1002/elps.200305661
        • “Microchannel-assisted thermal-lens spectrometry for microchip analysis”
          E. Tamaki, A. Hibara, M. Tokeshi and T. Kitamori,
          Journal of Chromatography a 2003, 987, 197-204.
          10.1016/S0021-9673(02)01661-8
        • “Chemicofunctional membrane for integrated chemical processes on a microchip”
          H. Hisamoto, Y. Shimizu, K. Uchiyama, M. Tokeshi, Y. Kikutani, A. Hibara and T. Kitamori,
          Analytical Chemistry 2003, 75, 350-354.
          10.1021/ac025794+
        • “Development of a desktop-sized thermal lens microscope”
          S. Hiki, M. Tokeshi, A. Hibara and T. Kitamori,
          Bunseki Kagaku 2003, 52, 569-574.
          10.2116/bunsekikagaku.52.569
        • “Spectroscopic analysis of liquid/liquid interfaces in multiphase microflows”
          A. Hibara, M. Nonaka, M. Tokeshi and T. Kitamori,
          Journal of the American Chemical Society 2003, 125, 14954-14955.
          10.1021/ja037308l
        • “Continuous-flow chemical processing on a microchip by combining microunit operations and a multiphase flow network”
          M. Tokeshi, T. Minagawa, K. Uchiyama, A. Hibara, K. Sato, H. Hisamoto and T. Kitamori,
          Analytical Chemistry 2002, 74, 1565-1571.
          10.1021/ac011111z
        • “Three-layer flow membrane system on a microchip for investigation of molecular transport”
          M. Surmeian, M. Slyadnev, H. Hisamoto, A. Hibara, K. Uchiyama and T. Kitamori,
          Analytical Chemistry 2002, 74, 2014-2020.
          10.1021/ac0112317
        • “Pile-up glass microreactor”
          Y. Kikutani, A. Hibara, K. Uchiyama, H. Hisamoto, M. Tokeshi and T. Kitamori,
          Lab on a Chip 2002, 2, 193-196.
          10.1039/b208383n
        • “Nanochannels on a fused-silica microchip and liquid properties investigation by time-resolved fluorescence measurements”
          A. Hibara, T. Saito, H. Kim, M. Tokeshi, T. Ooi, M. Nakao and T. Kitamori,
          Analytical Chemistry 2002, 74, 6170-6176.
          10.1021/ac025808b
        • “Stabilization of liquid interface and control of two-phase confluence and separation in glass microchips by utilizing octadecylsilane modification of microchannels”
          A. Hibara, M. Nonaka, H. Hisamoto, K. Uchiyama, Y. Kikutani, M. Tokeshi and T. Kitamori,
          Analytical Chemistry 2002, 74, 1724-1728.
          10.1021/ac011038c
        • “Morphological dependence of radiative and nonradiative relaxation energy balance in photoexcited aryl ether dendrimers as observed by fluorescent and thermal lens spectroscopies”
          Y. Wakabayashi, M. Tokeshi, A. Hibara, D. Jiang, T. Aida and T. Kitamori,
          Journal of Physical Chemistry B 2001, 105, 4441-4445.
          10.1021/jp004448y
        • “Determination of subyoctomole amounts of nonfluorescent molecules using a thermal lens microscope: Subsingle molecule determination”
          M. Tokeshi, M. Uchida, A. Hibara, T. Sawada and T. Kitamori,
          Analytical Chemistry 2001, 73, 2112-2116.
          10.1021/ac001479g
        • “Distribution of methyl red on the water-organic liquid interface in a microchannel”
          M. Surmeian, A. Hibara, M. Slyadnev, K. Uchiyama, H. Hisamoto and T. Kitamori,
          Analytical Letters 2001, 34, 1421-1429.
          10.1081/AL-100104916
        • “Use of a thermal lens microscope in integrated catecholamine determination on a microchip”
          H. Sorouraddin, A. Hibara and T. Kitamori,
          Fresenius Journal of Analytical Chemistry 2001, 371, 91-96.
          10.1007/s002160100998
        • “Fast and high conversion phase-transfer synthesis exploiting the liquid-liquid interface formed in a microchannel chip”
          H. Hisamoto, T. Saito, M. Tokeshi, A. Hibara and T. Kitamori,
          Chemical Communications 2001, 2662-2663.
          10.1039/b106494k
        • “On-chip integration of sequential ion-sensing system based on intermittent reagent pumping and formation of two-layer flow”
          H. Hisamoto, T. Horiuchi, K. Uchiyama, M. Tokeshi, A. Hibara and T. Kitamori,
          Analytical Chemistry 2001, 73, 5551-5556.
          10.1021/ac0107150
        • “On-chip integration of neutral ionophore-based ion pair extraction reaction”
          H. Hisamoto, T. Horiuchi, M. Tokeshi, A. Hibara and T. Kitamori,
          Analytical Chemistry 2001, 73, 1382-1386.
          10.1021/ac001271v
        • “Integrated multilayer flow system on a microchip”
          A. Hibara, M. Tokeshi, K. Uchiyama, H. Hisamoto and T. Kitamori,
          Analytical Sciences 2001, 17, 89-93.
          10.2116/analsci.17.89
        • “Infrared absorption characteristics of large-sized spherical aryl-ether dendrimers”
          Y. Wakabayashi, M. Tokeshi, A. Hibara, D. Jiang, T. Aida and T. Kitamori,
          Analytical Sciences 2000, 16, 1323-1326.
          10.2116/analsci.16.1323
        • “Thermal lens microscope”
          K. Uchiyama, A. Hibara, H. Kimura, T. Sawada and T. Kitamori,
          Japanese Journal of Applied Physics Part 1-Regular Papers Short Notes & Review Papers 2000, 39, 5316-5322.
          10.1143/JJAP.39.5316
        • “Non-contact photothermal control of enzyme reactions on a microchip by using a compact diode laser”
          Y. Tanaka, M. Slyadnev, A. Hibara, M. Tokeshi and T. Kitamori,
          Journal of Chromatography a 2000, 894, 45-51.
          10.1016/S0021-9673(00)00593-8
        • “Integrated fia for the determination of ascorbic acid and dehydroascorbic acid in a microfabricated glass-channel by thermal-lens microscopy”
          H. Sorouraddin, A. Hibara, M. Proskurnin and T. Kitamori,
          Analytical Sciences 2000, 16, 1033-1037.
          10.2116/analsci.16.1033
        • “Femtosecond transient reflecting grating methods and analysis of the ultrafast carrier dynamics on si(111) surfaces”
          T. Morishita, A. Hibara, T. Sawada, I. Tsuyumoto and A. Harata,
          Analytical Sciences 2000, 16, 403-406.
          10.2116/analsci.16.403
        • “Ultrafast charge transfer at tio2/scn- (aq) interfaces investigated by femtosecond transient reflecting grating method”
          T. Morishita, A. Hibara, T. Sawada and I. Tsuyumoto,
          Journal of Physical Chemistry B 1999, 103, 5984-5987.
          10.1021/jp984729u
        • “Ultrafast electron transport phenomena in highly excited gold films”
          A. Hibara, T. Morishita, I. Tsuyumoto, T. Kitamori and T. Sawada,
          Journal of Luminescence 1999, 83-4, 33-36.
          10.1016/S0022-2313(99)00070-8
        • “Direct measurements of femtosecond energy dissipation processes of hot electrons in a gold film”
          A. Hibara, T. Morishita, I. Tsuyumoto, A. Harata, T. Kitamori and T. Sawada,
          Japanese Journal of Applied Physics Part 1-Regular Papers Short Notes & Review Papers 1999, 38, 2983-2987.
          10.1143/JJAP.38.2983
        • “Femtochemistry at pt/aqueous solution interfaces as observed by transient reflectivity measurements”
          A. Hibara, A. Harata and T. Sawada,
          Chemical Physics Letters 1997, 272, 1-5.
          10.1016/S0009-2614(97)00496-X

 


解説・総説  Reviews

        • “Interfacial phenomena and fluid control in micro/nanofluidics”
          A. Hibara, M. Fukuyama, M. Chung, C. Priest and M. A. Proskurnin,
          Analytical Sciences, 32(1), 11-21 (2016).
          10.2116/analsci.32.11
        • “液晶ディスプレイを利用した蛍光偏光イメージング”
          若尾 摂, 真栄城 正寿, 火原 彰秀, 渡慶次 学
          ケミカルエンジニアリング, 61(1), 12-17(2016).
          link
        • “自然乳化を利用したマイクロ水滴内包物の選択的濃縮法”
          福山真央,火原彰秀
          分析化学, 65(2), 57-64 (2016).
          10.2116/bunsekikagaku.65.57
        • “マイクロ液滴操作と分析”
          福山真央,火原彰秀
          ぶんせき, 2015(1), 8-12(2015).
          link
        • “微小スケールの液体界面と分析操作”
          火原彰秀
          海洋化学研究, 27(2),124-127(2014)
          link
        • “微小体積を活用する化学研究”
          福山真央,火原彰秀
          化学と工業, 67(2),509(2014).
          link
        • “マイクロ液滴生成過程の電気化学解析”
          福山 真央, 吉田 裕美, Jan C.T. Eijkel, Albert van den Berg, 火原 彰秀
          ポーラログラフィー, 59(1), 13-19 (2013) .
          doi 10.5189/revpolarography.59.13
        • “マイクロ流路内界面張力波共鳴現象と表面張力測定”
          火原彰秀
          レーザー研究, 40(12), 913-918 (2012).
        • “Thermal lens detection in microfluidic chips“
          V. S. Dudko, A. P. Smirnova, M. A. Proskurnin, A. Hibara, T. Kitamori
          Russian Journal of General Chemistry, 82(12), 2146-2153 (2012).
        • “化学分析への応用(特集 電気工学と生物・化学の異分野融合を拓くマイクロTAS 技術—1滴で分かる分析技術を目指して—)“
          火原彰秀
          電気学会誌, 131(5), 291-295 (2011).
        • “マイクロ二相流体操作と分析化学“
          火原彰秀
          ケミカルエンジニアリング, 54(9), 676-681 (2009).
        • “ヘッドライン マイクロ化学のもたらす世界 「マイクロ化学と計測法」“
          火原彰秀
          化学と教育, 57(8), 372-375 (2009).
        • “マイクロ化学とマイクロ二相流“
          火原彰秀
          混相流, 23(2), 330-335 (2009).
        •  “ナノ流体化学システムの基盤技術開発火原彰秀
          生産研究, 6(2), 79-82 (2009).
        • “Integrated fluidic systems on a nanometer scale and the study on behavior of liquids in small confinement“
          A. Hibara, T. Tsukahara and T. Kitamori,
          Journal of Chromatography A, 1216(4), 673-683 (2009).
        • “界面のはかりかた 光散乱および光熱変換現象を利用した液液界面のはかりかた“
          火原彰秀, 北森武彦
          ぶんせき, 6月号, 242-248 (2006).
        • “マイクロ化学“
          上野雅晴, 火原彰秀, 北森武彦
          表面科学, 26(2), 74-81 (2005)
        • “液液マイクロ多相流“
          火原彰秀, 北森武彦
          混相流, 19(1), 16-24 (2005)
        • “最新機器の挑戦 熱レンズ顕微鏡-微小空間で高感度の物質定量を行う!“
          火原彰秀、北森武彦
          化学, 59(8), 42-43 (2004).
        • “超微量分析・精密合成を可能にするマイクロ化学チップ“
          渡慶次学、火原彰秀、佐藤記一、上野雅晴、北森武彦
          ニューガラス, 19(3), 5-13 (2004).
        • “非蛍光性分子の超高感度検出“
          渡慶次学,馬渡和真,火原彰秀,北森武彦
          応用物理, 73(6), 741-748 (2004).
        • “Thermal lens microscopy and microchip chemistry“
          T. Kitamori, M. Tokeshi, A. Hibara, Kiichi Sato
          Analytical Chemistry, 76 (3), 52A-60A (2004).
        • “Chemical processing on microchips for analysis, synthesis, and bioassay“
          M. Tokeshi, Y. Kikutani, A. Hibara, K. Sato, H. Hisamoto,T. Kitamori,
          Electrophoresis, 24(21) 3583-3594 (2003).
        • “メソ空間化学“
          火原彰秀
          ファインケミカル, 32(16), 55-62 (2003).
        • “オンチップセパレーション“
          火原彰秀、北森武彦
          バイオマテリアル-生体材料-, 21(2), 120-126 (2003).
        • “チップ内マルチイオンセンシングを目指したセグメントフロー-多相流形成の基礎検討“
          久本秀明 、堀内隆之、火原彰秀、渡慶次学、北森武彦
          電気学会誌, 123-E(4), 124-127 (2003).
        • “マイクロ化学システム“
          渡慶次学, 火原彰秀, 北森武彦
          計測と制御, 42, 29-32 (2003).
        • “ミクロ空間における分子輸送と溶媒抽出-マイクロ化学システムの鍵-“
          久本秀明 、渡慶次学、火原彰秀、北森武彦
          イオン交換学会誌, 14(1), 38-43 (2003).
        • “Microchip-Based Chemical and Biochemical Analysis Systems“
          Kiichi Sato, A. Hibara, M. Tokeshi, H. Hisamoto and T. Kitamori
          Advanced Drug Delivery Reviews, 55, 379-391 (2003).
        • “Integration of Chemical and Biochemical Analysis Systems into a Glass Microchip“
          Kiichi Sato, A. Hibara, M. Tokeshi, H. Hisamoto and T. Kitamori
          Analytical Sciences, 19, 15-22 (2003).
        • “マイクロチップ抽出場の創製からマイクロチップ化学へ“
          渡慶次学、火原彰秀、久本秀明、北森武彦
          ぶんせき, (5), 257-262 (2002).
        • “マイクロチップに集積化したミクロ実験室“
          火原彰秀, 渡慶次学, 北森武彦
          固体物理, 36 (12), 883-889 (2001).
        • “Thermal lens microscope for integrated chemistry laboratory on glass microchips
          A. Hibara, K. Sato, H. Hisamoto, K. Uchiyama, M. N. Slyadnev, M. Tokeshi, T. Kitamori
          Progress in Natural Science, Vol 11 Suppl., S237-S241 (2001).
        • “化学反応場としてのマイクロ化学チップ -マイクロ化学プラントへの技術と展望-“
          金幸夫, 久本秀明, 佐藤記一, 火原彰秀
          機械振興, 395, 42-49 (2001)
        • “複合化学プロセスのマイクロチップ集積化“
          火原彰秀, 渡慶次学, 北森武彦
          Electrochemistry(電気化学および工業物理化学), 69(8), 620-623 (2001)
        • “熱レンズ顕微鏡“
          火原彰秀, 渡慶次学, 北森武彦
          光技術コンタクト, 20-27,449, (2000)
        • “一分子を測る“
          火原彰秀, 渡慶次学, 北森武彦
          ぶんせき, 591-596 (2000)
        • “熱レンズ顕微鏡による非蛍光生単一分子計測“
          佐藤記一, 渡慶次学, 火原彰秀, 北森武彦
          生物物理, 230, 262-265(2000)

 


著書  Books 

        • 理工系学生のための基礎化学(無機化学)
          火原彰秀(担当:分担執筆, 範囲:第6章化学反応の基礎 -酸・塩基と酸化・還元-, pp.43-48)
          化学同人2016年4月 ISBN:978-4-7598-0496-6
        • 食品素材のナノ加工を支える技術
          火原 彰秀 (担当:分担執筆, 範囲:第4章1 マイクロ・ナノ空間の物性 pp.142-150; 第4章5 熱レンズ顕微鏡によるナノ粒子分析法 pp.174-182.)
          シーエムシー出版   2013年10月   ISBN:978-4-7813-0826-5
        • ベーシックマスター 分析化学
          火原彰秀 (担当:分担執筆, 範囲:第13章 分光化学分析法, pp. 179-203)
          オーム社 2013年8月 ISBN:978-4274214257
        • 分光測定入門シリーズ10 顕微分光法
          渡慶次学、火原彰秀 (担当:分担執筆, 範囲:熱レンズ顕微分光法, pp. 77-91.)
          講談社サイエンティフィック 2009年 ISBN:978-4061571082
        • レーザー分光分析化学
          火原彰秀 (担当:分担執筆, 範囲:熱レンズイメージング法, pp. 58-62.)
          丸善 2009年 ISBN:978-4621081365
        • MEMS/NEMS工学全集
          火原彰秀 (担当:分担執筆, 範囲:分析化学)
          テクノシステム 2009年 ISBN:978-492472859
        • フードナノテクノロジー
          火原彰秀 (担当:分担執筆, 範囲:第5章 マイクロ・ナノ化学システムによるナノ粒子分析法, pp. 73-78.)
          シーエムシー出版 2009年 ISBN:978-4781301266
        • マイクロ・ナノ化学チップと医療・環境・バイオ分析
          火原彰秀 (担当:分担執筆, 範囲:第2編 マイクロ化学チップの動作と原理 第4章 流体制御, pp.33-43.)
          技術教育出版 2009年 ISBN:978-4907837174
        • ナノバイオ大事典
          火原彰秀、北森武彦 (担当:分担執筆, 範囲:マイクロ流体学(ミクロ流体学))
          テクノシステム 2007年 ISBN:978-4924728004
        • ナノテクノロジー入門シリーズII ナノテクのための化学・材料入門
          火原彰秀 (担当:分担執筆, 範囲:Chapter 4 トップダウン構築, pp. 91-105)
          共立出版, 2007年 ISBN:978-4320071711
        • 医療ナノテクノロジー −最先端医学とナノテクの融合−
          火原彰秀 (担当:分担執筆, 範囲:第I部 第4章マイクロ・ナノ化学チップ I 加工, pp. 51-59.)
          杏林出版 2007年 ISBN:978-4903453057
        • マイクロ・ナノ熱流体ハンドブック
          杉井康彦、火原彰秀、北森武彦 (担当:分担執筆, 範囲:マイクロリアクタ)
          エヌ・ティー・エス 2006年 ISBN:978-4860431150
        • インテグレーテッド・ケミストリー
          火原彰秀 (担当:分担執筆, 範囲:第5章マイクロ流体, 第10章マイクロ・メソ空間の物理化学)
          シーエムシー出版 2004年 ISBN:978-4882314363
        • マイクロ化学チップの技術と応用
          火原彰秀 (担当:分担執筆, 範囲:化学計測技術, pp 131-142)
          丸善 2004年 ISBN:978-4621074718
        • 機器分析実験
          北森武彦、火原彰秀 (担当:分担執筆, 範囲:光熱変換分光法, pp 86-91)
          東京化学同人 2002年 ISBN:978-4807905416

 


 

雑文  Miscellaneous

      • “Guest editorial “micro/nanofluidics and micro/nanotechnologies for analytical chemistry: Fundamental technologies, characteristic phenomena, applications, and instrumentation””
        K. Mawatari and A. Hibara,
        Analytical Sciences, 32(1), 1 (2016).
        10.2116/analsci.32.1
      • “書評 「トロウ化学入門」”
        火原彰秀
        生化学,  87(4),496(2015).
        link
      • “東京コンファレンス”
        火原彰秀
        日本分析化学会関東支部60周年記念誌 (2015).
      • 談話室 産学交流雑感
        火原彰秀
        ぶんせき, 2011(7), 421-421 (2011).
      • “Preface to special topic: Applied biophysics”
        A. Mandelis, G. J. Diebold, T. Kitamori, A. Hibara and I. A. Vitkin,
        Journal of Applied Physics, 105(10), 101901 (2009).
        10.1063/1.3112105
      • リレーエッセイ 面白さについて
        火原彰秀
        ぶんせき, 2008(2), 88-88 (2008).