AUTOLAB電気化学測定装置の特徴はモジュール式です。オプションの組み合わせより、電気化学測定、化学分析、腐食、メッキ、バイオセンサー、電池、2次電池、燃料電池、色素増感太陽電池等の様々な分野で、応用されています。このページは日本国内で測定された一部データ、セミナー資料とMetrohm Autolab社のApplication Noteを紹介します。

アプリケーションノートと測定データ

Autolab装置で燃料電池のインピーダンス測定
燃料電池測定のCole-Coleプロットと電流遮断法
高電流燃料電池のインピーダンス測定
Autolab装置で電池、2次電池の研究と評価
Autolab装置で腐食の研究(1) 分極測定
Autolab装置で腐食の研究(2) 電気化学インピーダンス測定
Autolab装置で腐食の研究(3) 電気化学ノイズ測定
Autolab装置で電気分析化学方法
Autolab装置でストリッピング分析測定
電気化学インピーダンス基礎
リチウム二次電池のインピーダンス測定
色素増感太陽電池のインピーダンス測定データ
Mott-Schottkyプロット
回転ディスク電極測定データ
液/液界面のインピーダンス
デュアルポテンショスタット
Autolab装置のセルケーブル繋ぎ方
サイクリックストリッピングボルタンメトリー(CVS)法

Application Note(英文PDF)

電気化学測定
Study of the Mass Transport Characteristics of K3[Fe(CN)6]/ K4[Fe(CN)6] Oxidation and Reduction Reaction Using AUTOLAB RDE (EC01)
Reference Electrodes and Their Usage (EC02)
Ohmic Drop: Part 1 ? Basic Principles (EC03)
Ohmic Drop: Part 2 ? Measurement (EC04)
EQCM Study of Underpotentially Deposited (UPD) Lead Adlayer on Gold (EC05)
A Simple Experimental Protocol for Pt Deposition on Au Electrodes (EC06)
Comparison between Staircase Cyclic Voltammetry and Cyclic Voltammetry Linear Scan (EC07)
Basic overview of the working principle of a potentiostat/galvanostat - Electrochemical cell setup (EC08)
Spectroelectrochemical measurements in combination with Avantes spectrometers (EC09)
Automated measurement of temperature dependent ion conductivity (EC10)
Investigation of intermediates in the electrodeposition of copper using the Autolab RRDE (EC11)
Different approaches for capacitance measurements (EC12)
電気化学インピーダンススペクトロスコピー
Electrochemical Impedance Spectroscopy (EIS): Part 1 Basic Principles (EIS01)
Electrochemical Impedance Spectroscopy (EIS): Part 2 Experimental Setup (EIS02)
Electrochemical Impedance Spectroscopy (EIS): Part 3 Data Analysis (EIS03)
Electrochemical Impedance Spectroscopy (EIS): Part 4 Equivalent Circuit Models (EIS04)
Electrochemical Impedance Spectroscopy (EIS): Part 5 Parameter Estimation (EIS05)
Electrochemical Impedance Spectroscopy (EIS): Part 6 Measuring raw signals in EIS (EIS06)
腐食
Corrosion: Part 1 Basic concepts (COR01)
Corrosion: Part 2 Measurement of Corrosion Rates (COR02)
Corrosion: Part 3 Measurement of Polarization Resistance (COR03)
Corrosion: Part 4 Equivalent Circuit Models (COR04)
Corrosion: Part 5 Corrosion Inhibitors (COR05)
Corrosion: Part 6 Critical Pitting Temperature Measurements with pX1000 (COR06)
Corrosion: Part 7 Hydrogen permeation experiments with PGSTAT302F (COR07)
Stepwise dissolution measurement (COR08)
Electrochemical impedance spectroscopy of three coated aluminium samples (COR09)
燃料電池
Fuel Cells: Part 1 What is a Fuel Cell (FC01)
Fuel Cells: Part 2 Types of Fuel Cells (FC02)
Fuel Cells: Part 3 Characterization Using EIS (FC03)
Impedance Measurements on Fuel Cells and Fuel Cell Stacks at High Currents: Part 1 Autolab in Combination with an Electronic Load (FC04)
Impedance Measurements on Fuel Cells and Fuel Cell Stacks at High Currents: Part 2 Autolab in Combination with an Electronic Load (FC05)
i/V Characterization of a Fuel Cell Stack: DC Measurements at High Current Densities (FC06)
光電池、色素増感太陽電池評価
Photovoltaics: Part 1 - Dye sensitized solar cells (PV01)
Photovoltaics: Part 2 - Dye sensitized solar cells, impedance measurements (PV02)
Photovoltaics: Part 3 - Dye sensitized solar cells, IMVS and IMPS measurements (PV03)
Photovoltaics: Part 4 - Charge extraction measurements (PV04)
スーパーキャパシタ
Supercapacitors: Principles and Characterization using Autolab (SC01)
電池
High Voltage Measurements: Characterization of NiMH Batteries with Autolab PGSTAT302N in Combination with Voltage Multiplier (BAT01)
Galvanostatic Charge-Discharge of a Li-ion battery with Autolab (BAT02)
GITT: Galvanostatic Intermittent Titration Technique (BAT03)
PITT: Potentiostatic Intermittent Titration Technique (BAT04)
自動測定
Automated Sample Handling and Analysis with NOVA: Autolab in Combination With Metrohm Liquid Handling (AUT01)
Automated Sample Handling and Analysis with NOVA: Standard Addition with the Metrohm 800 Dosino (AUT02)
Automated Sample Handling and Analysis with NOVA: High-throughput Electrochemistry (AUT03)
表面プラスモン共鳴とバイオセンサー
Surface Plasmon Resonance with the Autolab SPR: An introduction
ESPR measurements on conducting polymers: electropolymerization of aniline
Ligand Immobilization strategies: preparation and considerations
Affinity constants from SPR equilibrium analysis
Study of the interaction between Bovine Serum Albumin and Rabbit anti-Cow Albumin antibody
Autolab SPR systems with a flexible range in refractive index
Considerations on noise and baseline drift with SPR
Applications of QCM, EIS and SPR in the investigation of surfaces and interfaces for the development of (bio)sensors
Immunosensor for Fibrinogen in Human Plasma
Pre-treatment of the sensor disk for measurement of low molecular weight molecules
Autolab SPR: Benefits cuvette versus flow cell

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