Simple and Rapid Spectrophotometric Determination of Trace Titanium(IV) with Preconcentration as Its Anionic Tiron Chelate on Chitin
スポンサーリンク
概要
著者
-
SUGAWARA Kazuharu
Faculty of Education, Gunma University
-
Akatsuka Kunihiko
Faculty Of Engineering Kitami Institute Of Technology
-
Akatsuka Kunihiko
Department Of Applied And Environmental Chemistry Kitami Institute Of Technology
-
HOSHI Suwaru
Faculty of Engineering,Kitami Institute of Technology
-
Hoshi S
Faculty Of Engineering Kitami Institute Of Technology
-
Hoshi Suwaru
Department Of Environmental Engineering Kitami Institute Of Technology
-
Hoshi Suwaru
Department Of Applied And Environmental Chemistry Kitami Institute Of Technology
-
SUGAWARA Kazuharu
Department of Applied and Environmental Chemistry, Kitami Institute of Technology
-
KONUMA Kiyotaka
Department of Applied and Environmental Chemistry, Kitami Institute of Technology
-
UTO Masayuki
Department of Functional Materials, Kitami Institute of Technology
-
Uto Masayuki
Department Of Functional Materials Kitami Institute Of Technology
-
Sugawara Kazuharu
Fac. Of Engineering Maebashi Inst. Of Technol.
-
Konuma Kiyotaka
Department Of Applied And Environmental Chemistry Kitami Institute Of Technology
-
Uto Masayuki
Department of Chemistry, Faculty of Science, Hokkaido University
関連論文
- Voltammetric Evaluation of the Binding between Wheat Germ Agglutinin and Thionine/Glucose-modified Magnetic Microbeads
- Voltammetric Behaviors of Wheat-Germ Agglutinin on a Chitin-modified Carbon-Paste Electrode
- Voltammetric Homogeneous Binding Assay of Biotin without a Separation Step Using Iminobiotin Labeled with an Electroactive Compound
- Accumulation Voltammetry of MoO_4^at a Glassy Carbon Electrode Covered with Chitin Film
- Voltammetric Detection of Lectin Using Sugar Labeled with Electroactive Substance
- Voltammetric Behaviors of Lectin-Sugar Binding Using Au Electrode Modified with Galactosamine
- Electrochemical Detection of Biotin Using an Interaction between Avidin and Biotin Labeled with Ferrocene at a Perfluorosulfonated Ionomer Modified Electrode
- Electrochemical Evaluation of Interaction between Avidin and Biotin Self-assembled Using Marker Ions
- Electrocatalytic Reduction of Hemoglobin at a Self-Assembled Monolayer Electrode Containing Redox Dye, Nile Blue as an Electron-Transfer Mediator
- Effect of the Steric Hindrance and Alkyl Chain of a Biotin Derivative to Avidin-Biotin Binding
- Preconcentration of Trace Amounts of Zinc in Seawater Using a Dynamically Coated Column of Methyltricaprylylammonium Chloride on Octadecylsilylsilica and Determination by Graphite-Furnace AAS
- Electrochemical Sensing of Glucose at a Platinum Electrode with a Chitin/Glucose Oxidase Film
- Evaluation of Avidin-Biotin Binding Using a Biotin Labeled with Daunomycin by Photoacoustic Spectrometry
- Simple and Rapid Spectrophotometric Determination of Trace Titanium(IV) with Preconcentration as Its Anionic Tiron Chelate on Chitin
- Spectrophotometric Determination of Trace Iron after Collection and Elution as Its 8-Hydroxyquinoline-5-sulfonate Chelate on Protonated Chitin
- An Improved Anion-Exchange Separation for the Determination of Platinum in Environmental Samples by Inductively Coupled Plasma Mass Spectrometry
- HIGH PERFORMANCE REVERSED-PHASE LIQUID CHROMATOGRAPHY OF TRACE AMOUNTS OF INORGANIC AND ORGANIC MERCURY AS DIETHYLDITHIOCARBAMATE CHELATES
- Preconcentration of Trace Cadmium from Seawater Using a Dynamically Coated Column of Quaternary Ammonium Salt on C_-Bonded Silica Gel and Determination by Graphite-Furnace Atomic Absorption Spectrometry
- Sensitivity of a Glassy Carbon Electrode Covered with a Chitin Film Improved by the Addition of Carbon Powder
- Electrochemical Study of Functionalization on the Surface of a Chitin/Platinum-modified Glassy Carbon Paste Electrode
- Contribution of Substituents to the Distribution Coefficient of N-Benzoyl-N-phenylhydroxylamine Derivatives
- Voltammetric Detection of Biological Molecules Using Chopped Carbon Fiber
- Multiplexed Assay for Proteins Based on Sequestration Electrochemistry Using the Protein Binding Electroactive Magnetic Microbeads