Advances in Micro/Nano-Bioanalysis : From Molecular Science to Device Applications
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概要
- 論文の詳細を見る
- 2012-01-10
著者
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HIRAYAMA Naoki
Department of Chemistry, Faculty of Science, Kanazawa University
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Hisamoto Hideaki
Department Of Applied Chemistry Graduate School Of Engineering Osaka Prefecture University
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Hirayama Naoki
Department Of Chemistry Faculty Of Science Toho University
関連論文
- Integration of Chemical and Biochemical Analysis Systems into a Glass Microchip
- Integrated Multilayer Flow System on a Microchip
- Preparation of Sodium Ion-Sensing Plates Based on a Thin Layer Liquid Membrane Containing a Neutral Ionophore and a Lipophilic Anionic Dye
- Magnesium Ion-Selective Optodes Based on a Neutral Ionophore and a Lipophilic Cationic Dye
- Novel Neutral Anion Ionophores Based on Fluorinated(Poly)Ether Compounds as a Sensory Molecule for an Ino-Selective Electrode
- Novel Hg^ -Ionophores Based on N-Hydroxylamide Derivatives as a Sensory Molecule for an Ion-Selective Electrode
- Novel Ammonium Ionophores Based on Glycol Dibenzyl Ethers for an Ion-Selective Electrode
- Crystal Structure of {1,4-Bis[1-(3,5-dichlorophenolato-2-ylmethyl)-ylpropylamino-κ^2N, O]piperazine-κ^2N, N'}cobalt(II)
- Structural Control of Schiff Base Ligands for Selective Extraction of Copper(II)
- Crystal Structure of Tris(2-hydroxy-3,5-dimethylbenzyl)amine
- X-Ray Crystallographic Approach to the Design of Phenolic Schiff Base Reagents for the Mutual Separation of Lanthanoids
- Extraction Behavior of Lanthanoids(III)with N, N'-Bis(2-hydroxyphenylmethyl)-N, N'-bis(2-pyridylmethyl)-1,2-ethanediamine and β-Diketones
- “Substituent on Benzenesulfonyl Group” Effect in Use of 8-Benzenesulfonamidoquinoline Derivatives as Chelate Extractant
- Capillary-assembled Microchip for the Electrochemical Determination of Glucose
- 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
- Enzyme-Release Capillary as a Facile Enzymatic Biosensing Part for a Capillary-Assembled Microchip
- "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
- Advances in Micro/Nano-Bioanalysis : From Molecular Science to Device Applications
- Evaluation of a Hydrophilic Ionic Liquid as a Salting-out Phase Separation Agent to a Water-Tetrahydrofuran Homogeneous System for Aqueous Biphasic Extraction Separation