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Publications by Masayuki KAMADA

Improvement of Hydrogen Peroxide Sensitivity by an Electrochemiluminescent Method With Luminol Using Polyion Adsorption Onto the Electrode

Electrochemistry

2004

English

Related publications

Amperometric Sensing of Hydrogen Peroxide Using Glassy Carbon Electrode Modified With Rhodium

Food Science and Applied Biotechnology

2018

English

A Guide to Avoid Method Bias of Chromium (III, VI) Chemiluminescence Determination by Luminol-Hydrogen Peroxide Reaction - Application to Water Samples

International Journal of Environmental Analytical Chemistry

Environmental Chemistry

English

High-Sensitive Analysis of Heme Proteins Separated by Capillary Electrophoresis With On-Line Chemiluminescence Detection Using a Luminol and Hydrogen Peroxide System.

Analytical Sciences

Analytical Chemistry

1997

English

Luminol-Enhanced Chemiluminescent Response of Human Melanocytes and Melanoma Cells to Hydrogen Peroxide Stress

Pigment Cell Research

1997

English

An Electrochemiluminescent Biosensor Based on Interactions Between a Graphene Quantum Dot−Sulfite Co-Reactant System and Hydrogen Peroxide

English

Oil Products Quality Improvement by Adsorption Method

Oriental Journal of Chemistry

Biochemistry

Environmental Chemistry

Drug Discovery

Chemistry

2017

English

Real-Time Sensing of Hydrogen Peroxide by ITO/MWCNT/Horseradish Peroxidase Enzyme Electrode

Journal of Nanomaterials

English

Low Corrosive Chemical Decontamination Method Using pH Control, (II). Decomposition of Reducing Agent by Using Catalyst With Hydrogen Peroxide.

Journal of Nuclear Science and Technology

English

Preparation of a Hydrogen Peroxide-Sensing Electrode Coated With a Bilayer Consisting of a Polyion Complex Membrane Layer on a Hemin/Ferrocene Layer and a Reduction in the Current Caused by the Electrochemical Interferants

Electrochemistry

2003

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Masayuki KAMADA

Improvement of Hydrogen Peroxide Sensitivity by an Electrochemiluminescent Method With Luminol Using Polyion Adsorption Onto the Electrode

Related publications

Amperometric Sensing of Hydrogen Peroxide Using Glassy Carbon Electrode Modified With Rhodium

A Guide to Avoid Method Bias of Chromium (III, VI) Chemiluminescence Determination by Luminol-Hydrogen Peroxide Reaction - Application to Water Samples

High-Sensitive Analysis of Heme Proteins Separated by Capillary Electrophoresis With On-Line Chemiluminescence Detection Using a Luminol and Hydrogen Peroxide System.

Luminol-Enhanced Chemiluminescent Response of Human Melanocytes and Melanoma Cells to Hydrogen Peroxide Stress

An Electrochemiluminescent Biosensor Based on Interactions Between a Graphene Quantum Dot−Sulfite Co-Reactant System and Hydrogen Peroxide

Oil Products Quality Improvement by Adsorption Method

Real-Time Sensing of Hydrogen Peroxide by ITO/MWCNT/Horseradish Peroxidase Enzyme Electrode

Low Corrosive Chemical Decontamination Method Using pH Control, (II). Decomposition of Reducing Agent by Using Catalyst With Hydrogen Peroxide.

Preparation of a Hydrogen Peroxide-Sensing Electrode Coated With a Bilayer Consisting of a Polyion Complex Membrane Layer on a Hemin/Ferrocene Layer and a Reduction in the Current Caused by the Electrochemical Interferants