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測れないものを測れるようにする化学(科学)〜新しい分析・計測の方法論開発を目指して〜

審査付きプロシーディングREFEREED PROCEEDINGS

2016年

DEVELOPMENT OF A DESIGNABLE DIGITAL ELECTROPHORESIS DEVICE BY CONNECTING CAPILLARY CARTRIDGES FILLED WITH A DIFFERENT FUNCTIONALIZED HYDROGEL
Yuta Aoki, Tadamasa Kanaoka, Keita Matsuda, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2016, 1448-1449.

SINGLE-STEP IMMUNOASSAY MICRODEVICE BASED ON GRAPHENE OXIDE-CONTAINING HYDROGEL POSSESSING FLUORESCENCE QUENCHING AND SIZE SEPARATION FUNCTIONS
Akihiro Shirai, Kaho Nakashima, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2016, 581-582.

2015年

RAPID AND HIGHLY SENSITIVE IMMUNOASSAY DEVICE BASED ON ELECTROPHORETIC FILTRATION USING A HYDROGELIMMOBILIZING FLUORESCENT SUBSTRATES
Shogo Miyamoto, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2015, 948-950.

RAPID AND SENSITIVE ENZYME ACTIVITY ASSAY MICRODEVICE BY ELECTROPHORETIC FILTRATION AND A HYDROGELIMMOBILIZING FLUORESCENT SUBSTRATES
Takashi Nishiwaki, Shogo Miyamoto, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2015, 939-941.

HIGHLY SENSITIVE ENZYME ACTIVITY ASSAY MICRO DEVICE BASED ON ISOELECTRIC FOCUSING USING BIFUNCTIONALFLUORESCENT SUBSTRATES AND REAGENT-RELEASE HYDROGELS
Kasumi Sugawara, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2015, 1987-1989.

MASS-PRODUCIBLE CAPILLARY-ASSEMBLED MICROCHIP (CAS-CHIP) FOR MULTIPLE SENSING WITH SINGLE-STEPOPERATION TOWARD POINT OF CARE TESTING
Akihiro Shirai, Terence G. Henares, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2015, 826-828.

DOUBLE SWEEPING USING REAGENT-RELEASE HYDROGELS FOR A HIGHLY SENSITIVE ELECTROPHORETIC BIOASSAYMICRODEVICE
Ryota Sanuki, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2015, 1080-1082.

2014年

RAPID AND HIGHLY SENSITIVE ELECTROPHORETIC IMMUNOASSAY DEVICE BASED ON THE ON-LINE CONCENTRATION OF ENZYME-LABELED ANTIBODY USING HYDROGEL IMMOBILIZING FLUORESCENT SUBSTRATE
Shogo Miyamoto, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2014, 2423-2425.

HYDROGEL BASED 2D-PHOTONIC CRYSTAL INCLUDING ACRYLIC ACID FOR BIOSENSING APPRICATION
Yoko Matsumoto, Takashi Araki, Tatsuro Endo, Kenji Sueyoshi, Hideaki Hisamoto
Proc. MicroTAS 2014, 2038-2040.

EVALUATION OF THE STACKED FUNCTIONAL HYDROGELS TOWARDS MICROFLUIDIC WESTERN BLOTTING BASED ON MULTI-DEMENSIONAL DIGITAL ELECTROPHORESIS USING CAPILLARY-ASSEMBLED MICROCHIP
Keita Matsuda, Tadamasa Kanaoka, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2014, 2396-2398.

POLYMER BASED PHOTONIC CRYSTAL CAVITY FOR HIGHLY SENSTIVE OPTICAL DETECTION
Kenichi Maeno, Shoma Aki, Tatsuro Endo, Kenji Sueyoshi, Hideaki Hisamoto
Proc. MicroTAS 2014, 2288-2290.

ULTRAFAST AND SINGLE-STEP IMMUNOASSAY USING FUNCTIONAL GRAPHENE OXIDE FOR CAPILLARY-ASSEMBLED MICROCHIP
Akihiro Shirai, Terence Henares, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2014, 956-958.

TWO-DIMENSIONAL DIGITAL ELECTROPHESIS OF PROTEINS USING MOSAIC HYDROGEL
Tadamasa Kanaoka, Keita Matsuda, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2014, 67-69.

PREPARATION OF HYDROGEL IMMOBILIZING FLUORESCENT SUBSTRATE ON A FLEXIBLE POLYMER SHEET AND ITS APPLICATION TO MASS-PRODUCIBLE AND SINGLE-STEP MULTI SENSING DEVICE
Seiji Odaka, Kaede Jigawa, Shun-ichi Funano, Terence Henares, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2014, 947-949.

POLYMER/TIO2 HYBRID TWO-DIMENSIONAL PHOTONIC CRYSTAL FOR ENHANCED FLUORESCENCE DETECTION
Shoma Aki, Tatsuro Endo, Kenji Sueyoshi, Hideaki Hisamoto
Proc. MicroTAS 2014, 2291-2293.

2013年

SIMPLE AND RAPID IMMUNOASSAY USING MICRO ISOELECTRIC FOCUSING DEVICE AND REAGENT RELEASE HYDROGELS
Yuji Fujii, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2013, 973-975.

DEVELOPMENT OF NOVEL LABEL-FREE ENZYME ACTIVITY ASSAY USING NANOIMPRINTED PHOTONIC CRYSTAL FOR UROKINASE ACTIVITY MEASUREMENT
Wakana Hashimoto, Tatsuro Endo, Kenji Sueyoshi, Hideaki Hisamoto
Proc. MicroTAS 2013, 859-861.

SINGLE-STEP ENZYNE IMMUNOASSAY USING LIPOPHILIC FLUORESCENT SUBSTRATE FOR CAPILLARY-ASSEMBLED MICROCHIP
Masato Sugahara, Shun-ichi Funano, Terence Henares, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2013, 497-499.

FLATBED SCANNER-BASED DETECTION FOR CAPILLARY-ASSEMBLED MICROCHIP
Shohei Kubo, Terence Henares, Shun-ichi Funano, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2013, 269-271.

SINGLE-STEP CASPASE-3 INHIBITOR ASSAY BY USING COMBINABLE PDMS CAPILLARY (CPC) SENSOR ARRAY
Tadashi Ishimoto, Kaede Jigawa, Terence Henares, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2013, 1544-1546.

FABRICATION OF HYDROGEL-BASED TWO-DIMENSIONAL PHOTONIC CRYSTAL FOR OPTICAL SENSOR APPLICATION
Takashi Araki, Tatsuro Endo, Kenji Sueyoshi, Hideaki Hisamoto
Proc. MicroTAS 2013, 1562-1564.

SIMPLE AND HIGHLY-SENSITIVE ENZYME ACTIVITY ASSAY MICRODEVICE BASED ON THE COMBINATION OF REAGENTRELEASE HYDROGEL AND CAPILLARY ARRAY
Naoki Agura, Kenji Sueyoshi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2013, 672-674.

PLASTICIZED PVC-BASED PHOTONIC CRYSTAL FOR ION SENSING APPLICATION
Shoma Aki, Tatsuro Endo, Kenji Sueyoshi, Hideaki Hisamoto
Proc. MicroTAS 2013, 925-927.

2012年

DESIGN AND SYNTHESIS OF FLUORESCENT ENZYME SUBSTRATE MONOMER AND ITS APPLICATION TO THE DEVELOPMENT OF HYDROGEL-BASED SINGLE STEP IMMUNOASSAY MICRODEVICE
Hideki Wakayama, Seiji Odaka, Shun-ichi Funano, Terence Henares, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2012, 806-808.

DRY REAGENT PAPER-COUPLED ELECTROPHORESIS MICROCHIP TOWARDS MULTI ASSAY OF BIOLOGICAL COMPONENTS
Yuta Miyahara, Naoki Funauchi, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2012, 584-586.

CAPILLARY SENSOR ARRAY CHIP AS A “SAMPLE-TO-ANSWER” DEVICE FOR SIMPLE, RAPID, AND MULTIPLE COMPONENT ANALYSIS OF SERUM SAMPLE
Yusuke Kimura, Terence Henares, Shun-ichi Funano, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2012, 1384-1386.

DEVELOPMENT OF LABEL-FREE BIOSENSOR FOR THE DETECTION OF ADENOSINE DIPHOSPHATE AS A UNIVERSAL KINASE/ATPASE ASSAY USING NANOIMPRINTED FLEXIBLE TWO-DIMENSIONAL PHOTONIC CRYSTAL
Tatsuro Endo, Bernadette Henares, Hideaki Hisamoto
Proc. MicroTAS 2012, 950-952.

“ELISA-CIEF” USING CAPILLARY-BASED MICRODEVICE: HIGHLY-SENSITIVE ELISA BASED ON CAPILLARY-ISOELECTRIC FOCUSING OF ENZYME REACTION PRODUCT
Yuta Uenoyama, Ken Ikegami, Daniel Citterio, Koji Suzuki, Shun-ichi Funano, Terence Henares, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2012, 1735-1737.

INTEGRATION OF NEURAMINIDASE INHIBITOR ASSAY INTO SINGLE STEP OPERATION USING COMBINABLE PDMS CAPILLARY (CPC) SENSOR
Tadashi Ishimoto,Kaede Jigawa, Terence Henares, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2012, 821-823.

2011年

Combinable PDMS capillary sensor array for multiple chemical sensing: Sensitivity enhancement and facilitation of sample introduction based on surface modification of PDMS
Yuji Fujii, Terence. G. Henares, Kunio Kawamura, Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2011 1152-1154.

Simple and Highly-Sensitive Enzyme Activity Assay Based on Reagent-Release Capillary - Isoelectric Focusing (RRC-IEF) Towards the Development of Multi Analyte Sensing Micro Device Capable of Detecting Both Proteins and Enzyme Activities
Yuto Nogawa Hiroki Yokoyama Kunio Kawamura Tatsuro Endo, Hideaki Hisamoto
Proc. MicroTAS 2011 2025-2027.

NANOIMPRINTED FLEXIBLE PHOTONIC CRYSTAL FOR SINGLE-STEP LABEL-FREE BIOSENSOR
Tatsuro Endo, Norimichi Okuda, Satoru Tanaka, Hideaki Hisamoto
Proc. MicroTAS 2011 571-573.

TRAPPING OF PROTEIN IN NANOSLOT NANOLASER SENSOR
Shota Kita, Shota Otsuka, Tatsuro Endo, Yoshiaki Nishijima, Hiroaki Misawa and Toshihiko Baba
Proc. MicroTAS 2011 1275-1277.

2010年

REAGENT-RELEASE CAPILLARY ARRAY ISOELECTRIC FOCUSING DEVICE FOR RAPID SCREENING OF PROTEIN ANALYSIS CONDITIONS
Masaki Kataoka, Hiroki Yokoyama, Terence G. Henares, Kunio Kawamura, Toshio Yao, and Hideaki Hisamoto
Proc. MicroTAS 2010 1040-1042.

SINGLE-STEP AND MULTIPLE BIOASSAY BASED ON COMBINABLE PDMS CAPILLARY (CPC) SENSOR ARRAY
Yosuke Uchiyama, Fumito. Okubo, Kozo Akai, Yuji Fujii, Terence G. Henares, Kunio Kawamura, Toshio Yao, and Hideaki Hisamoto
Proc. MicroTAS 2010 563-565.


バナースペース

大阪府立大学 大学院工学研究科 物質・化学系専攻 応用化学分野 分析化学研究グループ

〒599-8531
大阪府堺市中区学園町1-1

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