Research subjects and their main publications (chronological order)
(1) Flow analysis of biological constituents by use of chemiluminescence reaction (1982-)
Chemiluminescence Analysis of Biological Constituents Using Metal-Complex Catalysts. A Review: Tadashi Hara and Kazuhiko Tsukagoshi, Analytical Sciences, 6, 797-806 (1990).
(2) Molecular recognition of saccharides using phenylboronic acid derivatives (1990-)
Specific Complexation with Mono- and Disaccharides That Can Be Detected by Circular Dichroism: Kazuhiko Tsukagoshi and Seiji Shinkai, The Journal of Organic Chemistry, 56, 4089-4091 (1991).
Molecular Recognition of Mono- and Di-saccharides by Phenylboronic Acids in Solvent Extraction and as a Monolayer: Seiji Shinkai, Kazuhiko Tsukagoshi, Yuichi Ishikawa, and Toyoki Kunitake, Journal of the Chemical Society, Chemical Communications,1991, 1039-1041.
(3) Surface imprinting polymerization and its application (1991-)
Metal Ion-Selective Adsorbent Prepared by Surface-Imprinting Polymerization: Kazuhiko Tsukagoshi, Kai Yu Yu, Mizuo Maeda, and Makoto Takagi, Bulletin of the Chemical Society of Japan, 66, 114-120 (1993).
Surface Imprinting. Characterization of a Latex Resin and the Original of the Imprinting Effect: Kazuhiko Tsukagoshi, Kai Yu Yu, Mizuo Maeda, Makoto Takagi, and Tohru Miyajima, Bulletin of the Chemical Society of Japan, 68, 3095-3103 (1995).
(4) Development of capillary electrophoresis-chemiluminescence detection system (1995-)
Separation and Determination of Phenolic Compounds by Capillary Electrophoresis with Chemiluninescence Detection; Kazuhiko Tsukagoshi, Takahide Kameda, Masayo Yamamoto, and Riichro Nakajima, Journal of Chromatography. A, 978, 213-220 (2002).
Batch-Type Chemiluminescence Detection Cell for Sensitization and Simplification of Capillary Electrophoresis: Kazuhiko Tsukagoshi, Takeshi Nakamura, and Riichiro Nakajima, Analytical Chemistry, 74, 4109-4116 (2002).
Direct Detection of Biomolecules in a Capillary Electrophoresis-Chemiluminescence Detection System: Kazuhiko Tsukagoshi, Koji Nakahama, and Riichiro Nakajima, Analytical Chemistry, 76, 4410-4415 (2004).
Development of a Micro-Total Analysis System Incorporating Chemiluminescence Detection and Application to Detection of Cancer Markers: Kazuhiko Tsukagoshi, Naoya Jinno, Riichiro Nakajima, Analytical Chemistry, 77, 1684-1688 (2005).
Chemiluminescence Detection for Capillary Electrophoresis and Liquid Chromatography. A Review; Kazuhiko Tsukagoshi, The Science and Engineering Review of Doshisha University, 45, 165-186 (2005).
(5) Development of chromatography using an open-tubular capillary tube (1998-)
Preparation of an Iminodiacetic Acid-Modified Capillary and Its performance in Capillary Liquid Chromatography and Immobilized Metal Chelate Affinity Capillary Electrophoresis: Kazuhiko Tsukagoshi, Yasushi Shimadzu, Tatsuhiko Yamane, and Riichiro Najima, Journal of Chromatography A,1040, 151-154 (2004).
Selective Detection of Human Serum Albumin Using a Fused-Silica Capillary Modified with Anti-Human Serum Albumin: Kazuhiko Tsukagoshi, Hirofumi Indou, Kaori Sawanoi, Takako Oguni, and Riichiro Nakajima, Bulletin of the Chemical Society of Japan,77, 1353-1357 (2004).
Micro-Channel Chemiluminescence Analysis Using Peroxyoxalate Reaction that Works through Liquid–liquid Interface Collapse under Laminar Flow Conditions: Kazuhiko Tsukagoshi, Yoshiyuki Hattori, Teruki Hayashi, Riichiro Nakajima, Kenichi Yamashita, and Hideaki Maeda, Analytical Sciences, 24, 1393-1398 (2008).
Metal Ion Analysis Using Microchip CE with Chemiluminescence Detection Dased on 1,10-Phenanthroline-Hydrogen Peroxide Reaction: Takahiro Nogami, Masahiko Hashimoto, and Kazuhiko Tsukagoshi, Journal of Separation Science, 32, 408-412 (2009).
(7) Clarification of phase separation multiphase flow and its functional appearance (2009-)
Capillary Chromatography Based on Tube Radial Distribution of Aqueous-Organic Mixture Carrier Solvents: Naoya Jinno, Minoru Itano, Masahiko Hashimoto, and Kazuhiko Tsukagoshi, Talanta, 79, 1348-1353 (2009).
Fluorescence Observation Supporting Capillary Chromatography Based on Tube Radial Distribution of Carrier Solvents under Laminar Flow Conditions: Naoya Jinno, Mari Murakami, Kiyoshi Mizohata, Masahiko Hashimoto, and Kazuhiko Tsukagoshi, Analyst, 136, 927-932 (2011).
Tube Radial Distribution Phenomenon of Ternary Mixed Solvents in a Microspace under Laminar Flow Conditions: Mari Murakami, Naoya Jinno, Masahiko Hashimoto, Kazuhiko Tsukagoshi, Analytical Sciences, 27, 793-798 (2011).
The Micro-Flow Reaction System Featured the Liquid-Liquid Interface Created with Ternary Mixed Carrier Solvents in a Capillary Tube: Yuji Masuhara, Naoya Jinno, Masahiko Hashimoto, and Kazuhiko Tsukagoshi, Analytical Sciences, 28, 439-444 (2012).
Study of Outer Phases in Capillary Chromatography, Based on Tube Radial Distribution of Carrier Solvents under Laminar Flow Conditions: Naoya Jinno, Mari Murakami, Kiyoshi Mizohata, Masahiko Hashimoto, and Kazuhiko Tsukagoshi, Journal of Liquid Chromatography & Related Technologies, 35, 1750–1766 (2012).
Fundamental Research and Application of the Specific Fluidic Behavior of Mixed Solvents in a Microspace (Invited Review): Kazuhiko Tsukagoshi, Analytical Sciences, 30, 65-73 (2014).
Investigation of Specific Microfluidic Flow with Two-phase Separation Mixed Solvent Solutions and Application to Flow Technology: Kazuhiko Tsukagoshi, Journal of Flow Injection Analysis, 32, 89-95 (2015).
Consideration of Inner and Outer Phase Configuration in Tube Radial Distribution Phenomenon Based on Viscous Dissipation in a Microfluidic Flow Using Various Types of Mixed Solvent Solutions: Satoshi Fujinaga, Masahiko Hashimoto, Kazuhiko Tsukagoshi, and Jiro Mizushima, Analytical Sciences, 32, 455-461 (2016).
Consideration of Tube Radial Distribution Phenomenon under Laminar Flow Conditions Based on the Weber Number: Satoshi Fujinaga, Masahiko Hashimoto, Kazuhiko Tsukagoshi, and Jiro Mizushima, Journal of Chemical Engineering of Japan, 48, 947-952 (2015).
Investigation of Tube Radial Distribution Phenomenon (TRDP) and Its Function Appearance: Kazuhiko Tsukagoshi, Kimura Keibun-Sha, Chapters 1-14, pp. 1-372,September, 2015.
Tube Radial Distribution Chromatography System Developed by Combining Commercially Available HPLC System and Open-Tubular Capillary Tube as Separation Column: Kento Yamada, Hyo Kan, and Kazuhiko Tsukagoshi, Talanta, 183, 89-93 (2018).
