(1) Lithium Ion Selective Optical Sensor Based on a Novel Neutral Ionophore
and a Lipophilic Anionic Dye
Kazuhiko Watanabe, Eriko Nakagawa, Hiroyuki Yamada, Hideaki Hisamoto, and
Koji Suzuki
Anal. Chem. 1993, 65, 2704-2710.
(2) Design and Synthesis of Highly Selective Ionophores for Lithium Ion Based
on 14-Crown-4 Derivatives for an Ion-Selective Electrode
Koji Suzuki, Hiroyuki Yamada, Kazunari Sato, Kazuhiko Watanabe, Hideaki
Hisamoto, Yoshito Tobe, and Kazuya Kobiro
Anal. Chem. 1993, 65, 3404-3410.
(3) Novel Ammonium Ionophores Based on Glycol Dibenzyl Ethers for an Ion-Selective
Electrode
Dwi Siswanta, Hideaki Hisamoto, Hajime Tohma, Noriko Yamamoto, and Koji
Suzuki
Chem. Lett. 1994, 945-948.
(4) Flow-through Type Chloride Ion Selective Optodes Based on Lipophilic Organometallic
Chloride Adducts and a Lipophilic Anionic Dye
Hideaki Hisamoto, Kazuhiko Watanabe, Hitoshi Oka, Eriko Nakagawa, Ursula
E.Spichger, and Koji Suzuki
Anal. Sci. 1994, 10, 615-622.
(5) Flow-through Type Calcium Ion Selective Optodes Based on Novel Neutral
Ionophores and a Lipophilic Anionic Dye
Hideaki Hisamoto, Kazuhiko Watanabe, Eriko Nakagawa, Yushi Shichi and Koji
Suzuki
Anal. Chim. Acta 1994 , 299, 179-187.
(6) Design and Synthesis of Calcium and Magnesium Ionophores Based on Double-Armed
Diazacrown Ether Compounds and their Application to an Ion Sensing Component
for an Ion-Selective Electrode
Koji Suzuki, Kazuhiko Watanabe, Yukihiro Matsumoto, Mitsuru Kobayashi,
Sayaka Sato, Dwi Siswanta and Hideaki Hisamoto
Anal. Chem. 1995, 67, 324-334.
(7) A Computer Program for Evaluation and Graphical Representation of the Potentiometric
Selectivity Coefficients of Ion-Selective Electrodes
Dwi Siswanta, Hideaki Hisamoto and Koji Suzuki
Trends Anal. Chem. 1995, 14, 101-104.
(8) Anion Selective Polymeric Membrane Electrodes Based on Metallocenes
Hideaki Hisamoto, Dwi Siswanta, Hiroshi Nishihara, and Koji Suzuki
Anal. Chim. Acta 1995, 304, 171-176.
(9) Silver Ion Selective Optodes Based on Novel Thia Ether Compounds
Hideaki Hisamoto, Eriko Nakagawa, Kazuhisa Nagatsuka, Yoko Abe, Sayaka
Sato, Dwi Siswanta and Koji Suzuki
Anal. Chem. 1995, 67, 1315-1321.
(10) Ion Sensing Film Optodes: disposable ion sensing probes for the determination
of Na+, K+, Ca2+ and Cl- concentrations in serum
Hideaki Hisamoto, Nami Miyashita, Kazuhiko Watanabe, Eriko Nakagawa and
Koji Suzuki
Sens. Actuators B. 1995, 29, 378-385.
(11) Design and Synthesis of Sodium Ion-Selective Ionophores Based on 16-Crown-5
Derivatives for an Ion-Selective Electrode
Koji Suzuki, Kazunari Sato, Hideaki Hisamoto, Dwi Siswanta, Kazuo Hayashi,
Noriko Kasahara, Kazuhiko Watanabe, Noriko Yamamoto and Hideshi Sasakura
Anal. Chem. 1996, 68, 208-215.
(12) Theory and Practice of Rapid Flow-Through Analysis Based on Optode Detection
and its Application to pH measurement as a Model Case
Hideaki Hisamoto, Michiko Tsubuku, Takuya Enomoto, Kazuhiko Watanabe, Haruma
Kawaguchi, Yasuhiro Koike, and Koji Suzuki
Anal. Chem. 1996, 68, 3871-3878.
(13) Structural Ion Selectivity of Thia Crown Ether Compounds with a Bulky Block
Subunit and their Application as an Ion Sensing Component for an Ion-Selective
Electrode
Dwi Siswanta, Kazuhisa Nagatsuka, Hiroyuki Yamada, Kazuhiro Kumakura, Hideaki
Hisamoto, Yushi Shichi, Kazuaki Toshima, and Koji Suzuki
Anal. Chem. 1996, 68, 4166-4172.
(14) Novel Hg2+-Ionophores Based on N-Hydroxylamide Derivatives as a Sensory
Molecule for an Ion-Selective Electrode
Dwi Siswanta, Masanori Kin, Hideaki Hisamoto, and Koji Suzuki
Chem. Lett. 1996, 1011-1012.
(15) Novel Neutral Anion Ionophores Based on Fluorinated (Poly) Ether Compounds
as a Sensory Molecule for an Ion-Selective Electrode
Dwi Siswanta, Jun Takenaka, Takeshi Suzuki, Hideshi Sasakura, Hideaki Hisamoto
and Koji Suzuki
Chem. Lett. 1997, 195-196.
(16) Ion Sensitive and Selective Active Waveguide Optodes
Hideaki Hisamoto, Kyung-Ho Kim, Yukiko Manabe, Keisuke Sasaki, Haruyuki
Minamitani and Koji Suzuki
Anal. Chim. Acta 1997, 342, 31-39.
(17) Magnesium Ion-Selective Optodes Based on a Neutral Ionophore and a Lipophilic
Cationic Dye
Dwi Siswanta, Hideaki Hisamoto, Sayaka Sato, Yukihiro Matsumoto, Yasuhiro
Koike, Shinji Yamamori, and Koji Suzuki
Anal. Sci. 1997, 13, 429-435.
(18) Preparation of Sodium Ion-Sensing Plates Based on a Thin Layer Liquid Membrane
Containing a Neutral Ionophore and a Lipophilic Anionic Dye
Hideaki Hisamoto, Sayaka Sato, Kazunari Sato, Dwi Siswanta and Koji Suzuki
Anal. Sci. 1998, 14, 127-131.
(19) Molecular Design, Characterization, and Application of Multiinformation
Dyes for Multi-Dimensional Optical Chemical Sensings.1. Molecular Design
Concepts of the Dyes and Their Fundamental Spectral Characteristics
Hideaki Hisamoto, Hajime Tohma, Toshiki Yamada, Ki-ichiro Yamauchi, Dwi
Siswanta and Koji Suzuki
Anal. Chim. Acta 1998, 373, 271-289.
(20) Molecular Design, Characterization, and Application of Multiinformation
Dyes for Multi-Dimensional Optical Chemical Sensings.2. Preparation of
the Optical Sensing Membranes for the Simultaneous Measurements of pH and
Water Content in Organic Media
Hideaki Hisamoto, Yukiko Manabe, Hiroko Yanai, Hajime Tohma, Toshiki Yamada,
and Koji Suzuki
Anal. Chem. 1998, 70, 1255-1261.
(21) Molecular Design, Characterization, and Application of Multiinformation
Dyes for Multi-Dimensional Optical Chemical Sensings.3. Application of
MIDs for lmax-Tunable Ion-Selective Optodes
Hideaki Hisamoto, Mihoko Tani, Sachiko Mori, Toshiki Yamada, Tomonori Ishigaki,
Hajime Tohma, and Koji Suzuki
Anal. Chem. 1999, 71, 259-264.
(22) Micrometer-Sized Sodium Ion-Selective Optodes Based on a "Tailed"
Neutral Ionophore
Kazuyoshi Kurihara, Motoichi Ohtsu, Takeo Yoshida, Toshihito Abe, Hideaki
Hisamoto, and Koji Suzuki
Anal. Chem. 1999, 71, 3558-3566.
(23) Theory and Practice of Rapid Flow-Through Analysis (RFA) 2; RFA Based on
Ion-Selective Optode Detection and its Application to Sodium Ion Determination
Hideaki Hisamoto, Sayaka Satoh, Kazunari Satoh, Michiko Tsubuku, Dwi Siswanta,
Yushi Shichi, Yasuhiro Koike, and Koji Suzuki
Anal. Chim. Acta 1999, 396, 131-141.
(24) Visual and Colorimetric Lithium Ion Sensing Based on Digital Color Analysis
Etsuko Hirayama, Tsunemi Sugiyama, Hideaki Hisamoto, and Koji Suzuki
Anal. Chem. 2000, 72, 465-474.
(25) Design and Synthesis of a More Highly Selective Ammonium Ionophore Than
Nonactin and Its Application as an Ion-Sensing Component for an Ion-Selective
Electrode
Koji Suzuki, Dwi Siswanta, Takeshi Otsuka, Tsuyoshi Amano, Takafumi Ikeda,
Hideaki Hisamoto, Ryoko Yoshihara, and Shigeru Ohba
Anal. Chem. 2000, 72, 2200-2205.
(26) Micrometer-Sized Lithium Ion-Selective Microoptodes Based on a "Tailed"
Neutral Ionophore and a Fluorescent Anionic Dye
Kazuyoshi Kurihara, Motoichi Ohtsu, Takeo Yoshida, Toshihito Abe, Hideaki
Hisamoto, and Koji Suzuki
Anal. Chim. Acta 2001, 426, 11-18.
(27) Integrated Multilayer Flow System on a Microchip
Akihide Hibara, Manabu Tokeshi, Kenji Uchiyama, Hideaki Hisamoto, and Takehiko
Kitamori
Anal. Sci. 2001, 17, 89-93.
(28) On-Chip Integration of Neutral Ionophore-Based Ion Pair Extraction Reaction
Hideaki Hisamoto, Takayuki Horiuchi, Akihide Hibara, Manabu Tokeshi, and
Takehiko Kitamori
Anal. Chem. 2001, 73, 1382-1386.
(29) Synthesis of Novel Hg2+ Receptors Based on N-Benzyloxyamide Derivatives
and Their Application to Anion-Selective Electrodes
Shin-ichi Sasaki, Tsuyoshi Amano, Satoru Ozawa, Tomomi Masuyama, Daniel
Citterio, Hideaki Hisamoto, Hisao Hori, and Koji Suzuki
J. Chem. Soc. Perkin Trans 1, 2001 (12), 1366-1371.
(30) Distribution of Methyl Red on Water-Organic Liquid Interface in Microchannel
Mariana Surmeian, Akihide Hibara, Maxim N. Slyadnev, Kenji Uchiyama, Hideaki
Hisamoto, Takehiko Kitamori
Anal. Lett. 2001, 34 (9), 1421-1429.
(31) Optical Determination of Low-Level Water Concentrations in Organic Solvents
Using Fluorescent Acridinyl Dyes and Dye-Immobilized Polymer Membranes
Daniel Citterio, Katsuya Minamihashi, Yuka Kuniyoshi, Hideaki Hisamoto,
Shin-ichi Sasaki, and Koji Suzuki
Anal. Chem. 2001, 73, 5339-5345.
(32) On-Chip Integration of Sequential Ion Sensing System Based on Intermittent
Reagent Pumping and Formation of Two-Layer Flow
Hideaki Hisamoto, Takayuki Horiuchi, Kenji Uchiyama, Manabu Tokeshi, Akihide
Hibara, and Takehiko Kitamori
Anal. Chem. 2001, 73, 5551-5556.
(33) Fast and High Conversion Phase-Transfer Synthesis Exploiting Liquid/Liquid
Interface Formed in MicrochannelChip
Hideaki Hisamoto, Takumi Saito, Manabu Tokeshi, Akihide Hibara, and Takehiko
Kitamori
Chem. Commun. 2001, issue 24, 2662-2663.
(34) Design and Synthesis of Mg2+ Selective Fluoroionophores Based on Coumarin
Derivative and Application for the Mg2+ Measurement in a Living Cell
Yoshio Suzuki, Hirokazu Komatsu, Takafumi Ikeda, Naohiko Saito, Sawa Araki,
Daniel Citterio, Hideaki Hisamoto, Yoshiichiro Kitamura, Takeshi Kubota,
Jun Nakagawa, Kotaro Oka, and Koji Suzuki
Anal. Chem. 2002, 74, 1423-1428.
(35) Continuous Flow Chemical Processing on a Microchip by Combining Micro Unit
Operations and a Multiphase Flow Network
Manabu Tokeshi, Tomoko Minagawa, Kenji Uchiyama, Akihide Hibara, Kiichi
Sato, Hideaki Hisamoto, and Takehiko Kitamori
Anal. Chem. 2002, 74, 1565-1571.
(36) Stabilization of Liquid Interface and Control of Two-Phase Confluence and
Separation in Glass Microchips by Utilizing Octadecylsilane Modification
of Microchannels
Akihide Hibara, Masaki Nonaka, Hideaki Hisamoto, Kenji Uchiyama, Yoshikuni
Kikutani,Manabu Tokeshi, and Takehiko Kitamori
Anal. Chem. 2002, 74, 1724-1728.
(37) Three-Layer Flow Membrane System on a Microchip for Investigation of Molecular
Transport
Mariana Surmeian, Maxim N. Slyadnev, Hideaki Hisamoto, Akihide Hibara,
Kenji Uchiyama, Takehiko Kitamori
Anal. Chem. 2002, 74, 2014-2020.
(38) Comparison of Two Molecular Design Strategies for the Development of a
More Highly Selective Ammonium Ionophore Than Nonactin
Shin-ichi Sasaki, Tsuyoshi Amano, Gou Monma, Takeshi Otsuka, Naoko Iwasawa,
Daniel Citterio, Hideaki Hisamoto, and Koji Suzuki
Anal. Chem. 2002, 74, 4845-4848.
(39) Glass Microchip with Three-Dimensional Microchannel Network for 2x2 Parallel
Synthesis
Yoshikuni Kikutani, Takayuki Horiuchi, Kenji Uchiyama, Hideaki Hisamoto,
Manabu Tokeshi and Takehiko Kitamori
Lab on a Chip 2002, 188-192.
(40) Pile-up Glass Microreactor
Yoshikuni Kikutani, Akihide Hibara, Kenji Uchiyama, Hideaki Hisamoto, Manabu
Tokeshi and Takehiko Kitamori
Lab on a Chip 2002, 193-196.
(41) An Interface Chip Connection between Capillary Electrophoresis and Thermal
Lens Microscope
Kenji Uchiyama, Akihide Hibara, Kiichi Sato, Hideaki Hisamoto, Manabu Tokeshi,
Takehiko Kitamori
Electrophoresis 2003, 24, 179-184.
(42) Chemico-Functional Membrane for Integrated Chemical Processes on a Microchip
Hideaki Hisamoto, Yuki Shimizu, Kenji Uchiyama, Manabu Tokeshi, Yoshikuni
Kikutani, Akihide Hibara, and Takehiko Kitamori
Anal. Chem. 2003, 75, 350-354.
(43) Molecular Design, Characterization, and Application of Multiinformation
Dyes for Optical Chemical Sensing IV. Multiinformation Dyes with Extended
Spectral Sensitivity in the Near-Infrared Spectral Range
Daniel Citterio, Takashi Kawada, Jun Yagi, Tomonori Ishigaki, Hideaki Hisamoto,
Shin-ichi Sasaki, Koji Suzuki
Anal. Chim. Acta 2003, 482(1), 19-28.
(44) Phase-transfer Alkylation Reactions Using Microreactors
Masaharu Ueno, Hideaki Hisamoto, Takehiko Kitamori and Shu_ Kobayashi
Chem. Commun. 2003, 936-937.
(45) Subsecond Separation of Cellular Flavin Coenzymes by Microchip Capillary
Electrophoresis with Laser-Induced Fluorescence Detection
Bi-Feng Liu, Hideaki Hisamoto and Shigeru Terabe
J. Chromatogr. A 2003, 1021, 201-207.
(46) Capillary-Assembled Microchip for Universal Integration of Various Chemical
Functions onto a Single Microfluidic Device
Hideaki Hisamoto, Yuya Nakashima, Chihiro Kitamura, Shun-ichi Funano, Midori
Yasuoka, Keisuke Morishima, Yoshikuni Kikutani, Takehiko Kitamori and Shigeru
Terabe
Anal. Chem. 2004, 76, 3222-3228.
(47) Micro wet analysis system using multi-phase laminar flows in three-dimensional
microchannel network
Yoshikuni Kikutani, Hideaki Hisamoto, Manabu Tokeshi and Takehiko Kitamori
Lab on a Chip 2004, 4 (4), 328-332.
(48) Characterization of molecular transport in poly(dimethylsiloxane) microchannels
for electrophoresis fabricated with synchrotron radiation-lithography and
UV-photolithography
Bi-Feng Liu, Motoaki Ozaki, Hideaki Hisamoto, Yuichi Utsumi, Tadashi Hattori
and Shigeru Terabe
Lab on a Chip 2004, 4 (4), 368-371.
(49) Microfluidic Chip toward Cellular ATP and ATP-Conjugated Metabolic Analysis
with Bioluminescence Detection
Bi-Feng Liu, Motoaki Ozaki, Hideaki Hisamoto, Qingming Luo, Yuichi Utsumi,
Tadashi Hattori, and Shigeru Terabe
Anal. Chem. 2005; 77(2); 573-578.
(50) Integration of Valving and Sensing on a Capillary-Assembled Microchip
Hideaki Hisamoto, Shun-ichi Funano, and Shigeru Terabe
Anal. Chem. 2005 77(7), 2266-2271.
(51) Integration of Multiple-Ion Sensing on a Capillary-Assembled Microchip
Hideaki Hisamoto, Midori Yasuoka, and Shigeru Terabe
Anal. Chim. Acta 2006, 556, 164-170.(Invited paper)
(52) Determination of Monomolecular Binding Constants by Continuous Ffrontal
Analysis in Capillary and Microchip Electrophoresis: Application to Measurement
of Neutral Inclusion Constants of Neutral Phenols into the b-Cyclodextrin
via a Competitive Assay
Thomas LeSaux, Hideaki Hisamoto, and Shigeru Terabe
J. Chromatogr. A 2006, 1104, 352-358.
(53) Capillary-Assembled Microchip as a Deproteinization Attachment for Capillary
Electrophoresis Separation
Hideaki Hisamoto, Seigi Takeda, and Shigeru Terabe
Anal. Bioanal. Chem. 2006, 386, 733-738.
(54) Healthcare Chip Based on Integrated Electrochemical Sensors Used for Clinical
Diagnostics of Bun
Chia-Hsien Chang, Hiroki Ogawa, Akio Oki, Madoka Takai, Masao Nagai, Hideaki
Hisamoto and Yasuhiro Horiike
Jpn. J. Appl. Phys. 2006, 45 (5A), 4241-4247.
(55) pH-Independent Fluorescent Chemosensor for Highly Selective Lithium Ion
Sensing
Daniel Citterio, Junichiro Takeda, Masaki Kosugi, Hideaki Hisamoto, Shin-ichi
Sasaki, Hirokazu Komatsu and Koji Suzuki
Anal.Chem. 2007, 79 (3), 1237-1242.
(56) Characterization of Electrokinetic Gating Valve in Microfluidic Channels
Guiseng Zhang, Wei Du, Bi-Feng Liu, Hideaki Hisamoto and Shigeru Terabe
Anal. Chim. Acta 2007, 584 (1), 129-135.
(57) Integration of Multi-Analyte Sensing Functions on a Capillary-Assembled
Microchip:
Simultaneous Determination of Ion Concentration and Enzymatic Activities
by "Drop-and-Sip" Technique
Terence G. Henares, Masayuki Takaishi, Naoya Yoshida, Shigeru Terabe, Fumio
Mizutani, Ryuichi Sekizawa and Hideaki Hisamoto
Anal. Chem. 2007, 79 (3), 908-915.
(58) Multiple Enzyme Linked Immunosorbent Assay System on a Capillary-Assembled
Microchip Integrating Valving and Immuno-Reaction Functions
Terence G. Henares, Shun-ichi Funano, Shigeru Terabe, Fumio Mizutani, Ryuichi
Sekizawa and Hideaki Hisamoto
Anal. Chim. Acta 2007, 589 (2), 173-179.
(59) Characterization of Capillary Immunosensor for the Capillary-Assembled
Microchip (CAs-CHIP) Integration
Terence G. Henares, Fumio Mizutani, Ryuichi Sekizawa and Hideaki Hisamoto
Sens. Mater. 2007, 19 (4), 249-259.
(60) Capillary-assembled Microchip for the Electrochemical Determination of
Glucose
Shingo Inadumi, Hideaki Hisamoto, and Fumio Mizutani
Chem. Lett. 2007, 36 (10), 1242-1243.
(61)"Drop-and-Sip" Fluid Handling Technique for the Reagent-Release
Capillary (RRC)-based Capillary-Assembled Microchip (CAs-CHIP): Sample
Delivery Optimization and Reagent Release Behavior in RRC
Terence G. Henares, Fumio Mizutani, Ryuichi Sekizawa, and Hideaki Hisamoto
Anal. Sci. 2008, 24 (1), 127-132.
(62) Single Drop Analysis of Various Proteases in a Cancer Cell Lysate using
Capillary-Assembled Microchip
Terence G. Henares, Fumio Mizutani, Ryuichi Sekizawa, and Hideaki Hisamoto
Anal. Bioanal. Chem. 2008, 391, 2507-2512.
(63) Enzyme-Release Capillary as a Facile Enzymatic Biosensing Parts for Capillary-Assembled
Microchip
Terence G. Henares, Eiji Maekawa, Fumito Okubo, Fumio Mizutani, Ryuichi
Sekizawa, Toshio Yao, and Hideaki Hisamoto
Anal. Sci. 2009, 25, 1025-1028.(Invited paper)
(64) Facile Preparation Method of a Disposable Capillary Biosensor Using an
Ion-selective Optode Membrane and a Dissolvable Enzyme Membrane and Its
Application to Urea Sensing
Erina Tsutsumi, Terence G. Henares, Kunio Kawamura, Toshio Yao, and Hideaki
Hisamoto
Chem. Lett. 2010, 39, 436-438.
(65) Single-step ELISA Capillary Sensor Based on Surface-Bonded Glucose Oxidase,
Antibody, and Physically-Adsorbed PEG membrane Containing Peroxidase-Labeled
Antibody
Terence G. Henares, Erina Tsutsumi, Hiromi Yoshimura, Kunio Kawamura, Toshio
Yao and Hideaki Hisamoto
Sens. Actuators B. 2010, 149(1), 319-324.
(66) Reagent-Release Capillary Array-Isoelectric Focusing Device as a Rapid
Screening Device for IEF Condition Optimization
Masaki Kataoka, Hiroki Yokoyama, Terence G. Henares, Kunio Kawamura, Toshio
Yao, and Hideaki Hisamoto
Lab Chip 2010, 10(24), 3341-3347.
(67) Flow injection analysis combined with a hydrothermal flow reactor: application
to kinetic determination of trace amounts of iridium using a water-soluble
porphyrin
Kunio Kawamura, Keisuke Ikoma, Shukuro Igarashi, Hideaki Hisamoto, Toshio
Yao
Talanta 2011, 84(5), 1318-1322.
(68) Combinable Poly(Dimethyl siloxane) Capillary Sensor Array for Single-Step
and Multiple Enzyme Inhibitor Assays
Yosuke Uchiyama, Fumito Okubo, Kozo Akai, Yuji Fujii, Terence G. Henares,
Kunio Kawamura, Toshio Yao, Tatsuro Endo, Hideaki Hisamoto
Lab Chip 2012, 12, 204-208.
(69) Guest Editorial Special Issue:
Advances in Micro/Nano-Bioanalysis -From Molecular Science to Device Applications-
Hideaki Hisamoto, Naoki Hirayama
Anal. Sci. 2012, 28, 1.
(70) Single-Step Sandwich Immunoreaction in a Square Glass Capillary Immobilizing
Capture and Enzyme-linked Antibodies for Simplified Enzyme-linked Immunosorbent
Assay
Erina Tsutsumi, Terence G. Henares, Shun-ichi Funano, Kunio Kawamura, Tatsuro
Endo, Hideaki Hisamoto
Anal. Sci. 2012, 28, 51-56.
(71) Bulk- and Surface-Modified Combinable PDMS Capillary Sensor Array as Easy-to-Use
Sensing Device with Enhanced Sensitivity to Elevated Concentrations of
Multiple Serum Sample Components
Yuji Fujii, Terence G. Henares, Kunio Kawamura, Tatsuro Endo, Hideaki Hisamoto
Lab Chip 2012, 12, 1522-1526.
(72) Printed two-dimensional photonic crystals for single-step label-free biosensing
of insulin under wet conditions
Tatsuro Endo, Masaya Sato, Hiroshi Kajita, Norimichi Okuda, Satoru Tanaka,
Hideaki Hisamoto
Lab Chip 2012, 12, 1995-1999.
(73) High-throughput Ru(III) analysis using the hydrothermal flow reactor-mediated
FIA by the extreme acceleration of Ru(III) complexation with 1,10-phenanthroline
Kunio Kawamura, Takayuki Nakai, Keisuke Ikoma, Hideaki Hisamoto
Talanta 2012, 99, 415-419.
(74) Open-Type Capillary-Assembled Microchip for Rapid, Single-Step, Simultaneous
Multi-Component Analysis of Serum Sample
Yusuke Kimura, Terence Henares, Shun-ichi Funano, Tatsuro Endo, Hideaki
Hisamoto
RSC Adv. 2012, 2, 9525-9530.
(75) Integration of Neuraminidase Inhibitor Assay into a Single-Step Operation
Using Combinable Poly(Dimethylsiloxane) Capillary Sensor
Tadashi Ishimoto, Kaede Jigawa, Terence Henares, Tatsuro Endo, Hideaki
Hisamoto
Analyst 2013, 138, 3158-3162.
(76) Novel Fluorescent Probe for Highly-Sensitive Bioassay using Sequential
Enzyme-Linked Immunosorbent Assay - Capillary Isoelectric Focusing (ELISA-cIEF)
Terence Henares, Yuta Uenoyama, Yuto Nogawa, Ken Ikegami, Daniel Citterio,
Koji Suzuki, Shun-ichi Funano, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Analyst 2013, 138, 3139-3141.
(77) Enhancement of the fluorescence intensity of DNA intercalators using nano-imprinted
2-dimensional photonic crystal
Tatsuro Endo, China Ueda, Hiroshi Kajita, Norimichi Okuda, Satoru Tanaka,
Hideaki Hisamoto
Microchim. Acta 2013, 180, 929-934.
(78) Capillary-based enzyme-linked immunosorbent assay for highly sensitive
detection of thrombin-cleaved osteopontin in plasma
Shun-ichi Funano, Terence Henares, Mie Kurata, Kenji Sueyoshi, Tatsuro
Endo, Hideaki Hisamoto
Anal. Biochem. 2013, 440, 137-141.
(79) Design of Single-Step Immunoassay Principle Based on the Combination of
Enzyme-Labeled Antibody Release Coating and Hydrogel Copolymerized with
Fluorescent Enzyme Substrate in a Microfluidic Capillary Device
Hideki Wakayama, Terence Henares, Kaede Jigawa, Shun-ichi Funano, Kenji
Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Lab Chip 2013, 13, 4304-4307.
(80) Advancements in Capillary-Assembled Microchip (CAs-CHIP) Development for
Multiple Analyte Sensing and Microchip Electrophoresis
Terence Henares, Shun-ichi Funano, Kenji Sueyoshi, Tatsuro Endo, Hideaki
Hisamoto
Anal. Sci., 2014, 30, 7-15. (Invited mini review)
(81) Efficient Immobilization of Enzyme and Substrate for Single-Step Caspase-3
Inhibitor Assay Using Combinable PDMS Capillary Sensor Array
Tadashi Ishimoto, Kaede Jigawa, Terence Henares, Kenji Sueyoshi, Tatsuro
Endo, Hideaki Hisamoto
RSC Adv., 2014, 4, 7682-7687.
(82) Signal amplified two-dimensional photonic crystal biosensor immobilized
with glyco-nanoparticles
Yuhei Terada, Wakana Hashimoto, Tatsuro Endo, Hirokazu Seto, Tatsuya Murakami,
Hideaki Hisamoto, Yu Hoshino, Yoshiko Miura
J. Mater. Chem. B, 2014, 2, 3324-3332.
(83) Development of novel protease assay device using a nanoimprinted two dimensional
photonic crystal
Wakana Hashimoto, Tatsuro Endo, Kenji Sueyoshi, Hideaki Hisamoto
Chem. Lett. 2014, 43, 1728-1730.
(84) Plasticized poly(vinyl chloride)-based photonic crystal for ion sensing
Shoma Aki, Tatsuro Endo, Kenji Sueyoshi, Hideaki Hisamoto
Anal. Chem. 2014, 86, 11986-11991.
(85) A single-step enzyme immunoassay capillary sensor composed of functional
multilayer coatings for diagnosis marker proteins
Shun-ichi Funano, Masato Sugahara, Terence Henares, Kenji Sueyoshi, Tatsuro
Endo, Hideaki Hisamoto
Analyst 2015, 140, 1459-1465.
(86) Separation Behavior of Short Oligonucleotides by Ion-Pair Reversed-Phase
Capillary Liquid Chromatography Using a Silica-Based Monolithic Column
Applied to Simple Detection of SNPs
Kunio Kawamura, Keisuke Ikoma, Yoshimi Maruoka, Hideaki Hisamoto
Chromatographia 2015, 78, 487-494.
(87) Fabrication and packaging of a mass-producible capillary-assembled microchip
for simple and multiplexed bioassay
Terence Henares, Akihiro Shirai, Kenji Sueyoshi, Tatsuro Endo, Hideaki
Hisamoto
Sens. Actuators B 2015, 218, 245-252.
(88) Development of Microchip Electrophoresis-Integrated Nanoimprinted Photonic
Crystal
Tatsuro Endo, Kenzo Yamamoto, Kenji Sueyoshi, Hideaki Hisamoto
Sens. Mater. 2015, 27, 425-433.
(89) Highly Sensitive and Multiple Enzyme Activity Assay Using Reagent-release
Capillary-Isoelectric Focusing with Rhodamine 110-based Substrates
Kenji Sueyoshi, Yuto Nogawa, Kasumi Sugawara, Tatsuro Endo, Hideaki Hisamoto
Anal. Sci. 2015, 31, 1155-1161.
(90) Polymer-based Photonic Crystal Cavity Sensor for Optical Detection in the
Visible Wavelength Region
Kenichi Maeno, Shoma Aki, Kenji Sueyoshi, Hideaki Hisamoto, Tatsuro Endo
Anal. Sci. 2016, 32, 117-120.
(91) A Simple and Rapid Immunoassay Based on Microchip Electrophoresis Using
a Reagent-Release Cartridge
Kenji Sueyoshi, Yuta Miyahara, Tatsuro Endo, Hideaki Hisamoto
Chromatography 2016, 37, 29-33.
(92) Fast and single-step immunoassay based on fluorescence quenching within
a square glass capillary immobilizing graphene oxide-antibody conjugate
and fluorescently labelled antibody
Akihiro Shirai, Terence Henares, Kenji Sueyoshi, Tatsuro Endo, Hideaki
Hisamoto
Analyst 2016, 141, 3389-3394.
(93) Development of optical biosensor based on photonic crystal made of TiO2using liquid phase deposition
Keigo Aono, Shoma Aki, Kenji Sueyoshi, Hideaki Hisamoto, Tatsuro Endo
Jpn. J. Appl. Phys. 2016, 55, 08RE01.
(94) Fabrication of gold-deposited plasmonic crystal based on nanoimprint lithography
for label-free biosensing application
Kiichi Nishiguchi, Kenji Sueyoshi, Hideaki Hisamoto, Tatsuro Endo
Jpn. J. Appl. Phys. 2016, 55, 08RE02.
(95) Development of a single-step immunoassay microdevice based on a graphene
oxide-containing hydrogel possessing fluorescence quenching and size separation
functions
Akihiro Shirai, Kaho Nakashima, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Analyst 2017, 142, 472-477.
(96) Fast and Single-step Fluorescence-based Competitive Bioassay Microdevice
Using Combined PDMS Microchannel Arrays Separately Immobilizing Graphene
Oxide-Analyte Conjugates and Fluorescently-labelled Receptor Proteins
Akihiro Shirai, Kaho Nakashima, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Anal. Sci. 2017, in press.
1-1 Gakuen-cho, Naka-ku, Sakai-shi, Osaka, 599-8531, Japan
e-mail
hisamoto(at)
chem.osakafu-u.ac.jp
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