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電化學分析儀

電化學分析儀

用於電化學研究和測試的恆電位/電流儀。

產品系列 知識中心 配件 為什麼選擇 Metrohm ? 常見問答

無論您有什麼需求 – 我們都有適合您的恆電位/電流儀

我們的電化學測量儀器產品系列包括精巧型到模組化以及單通道到多通道的恆電位儀/恆電流儀。使用篩選來選擇您的搜尋並找到最適合您的儀器。

尋找電化學分析儀的應用

可靠且精確的測量 – 恆電位儀的組成

為什麼選擇 Metrohm 恆電位儀 ? – 我們是全球市場的領導者

Metrohm 是電化學分析儀的業界標竿。30 多年前,我們率先推出了首款商用全電腦控制的數位恆電位/電流儀。我們對創新的執著追求始終激勵著我們不斷前進。如今,我們提供種類齊全的電化學分析儀,涵蓋從緊湊型到模組化、從單通道到多通道、從台式桌上型到便攜式等各種類型的恆電位儀和恆電流儀。

  • 可靠性:我們所有的儀器在生產過程中都要經過數百次品質檢測。平均而言,安裝後的前五年正常運作時間可達 99%
  • 卓越服務:我們為所有儀器提供領先業界的三年保固,並在全球 120 多個國家/地區提供在地支援。這確保了銷售和服務能夠快速回應,通常在 48 小時內即可得到回應。

為了幫助客戶充分利用我們的儀器,我們建立了一個內容豐富的知識庫,其中包含 100 多篇應用說明、白皮書和部落格文章。這些資料涵蓋了廣泛的科學領域,例如電化學、電池研究、生命科學和腐蝕研究等。

如果您正在探索循環伏安法和電化學阻抗譜 (EIS) 等電化學技術,我們的知識庫提供了實用的案例研究以及相關的公式或計算方法,為您提供量身訂製的全面支援。

瀏覽我們的電化學應用說明

恆電位/電流儀 – 常見問答

potentiostat is an electrochemical instrument that controls the potential difference (voltage) between the working electrode and the reference electrode while measuring the resulting current flow between the working and counter electrodes. It maintains a constant potential, making it ideal for studying redox reactions, corrosion, and processes where precise potential control is critical.

galvanostat, on the other hand, controls the cell current rather than the voltage. This makes it suitable for applications where maintaining a constant current is required, such as electrolysis, electrodeposition, or battery charge-discharge testing.

All Metrohm Autolab and Metrohm Dropsens instruments combine both potentiostatic and galvanostatic capabilities in a single device, allowing users to select the most suitable mode based on their experimental needs.

  Potentiostat (Potentiostatic Mode) Galvanostat (Galvanostatic Mode)

Columns

Voltage (potential)

Current
Measures

Current

Voltage (potential)
When to use

When maintaining constant voltage is crucial

When maintaining constant current is crucial
Typical applications
  • Redox reactions
  • Corrosion testing
  • Voltage sweeps measurements
  • Investigating electrochemical behaviour, kinetics and electrode surface properties
  • electrochemical sensors
  • Battery cycling
  • Electrolysis
  • Electrodeposition
  • Fuel cell testing
Example techniques

Cyclic voltammetry, chronoamperometry, potentiodynamic polarization

Charge/discharge cycles, galvanostatic plating, chronopotentiometry, GITT
Electrochemical impedance spectroscopy (EIS)

Characterizing high-impedance systems (materials with coatings or corrosion protection)

Studying impedance in low-impedance systems (batteries, supercapacitors)

Application Note: Basic overview of the working principle of a potentiostat/galvanostat (PGSTAT) – electrochemical cell setup

Blog: Fast and fundamental – Influences on reliable electrochemical measurements

Consider the following criteria to select a suitable potentiostat:

  1. Voltage and current range
  2. Workload
  3. Portability
  4. Hyphenation or all-in-one solution

Voltage and current range

Consider the range of potentials and currents you expect to work with.

  • Basic requirement: Compliance voltage up to ± 10 V, max. current up to ± 100 mA: PGSTAT101, Autolab IMP, μStat-i 400Small, lightweight, and affordable
  • Moderate requirement: Compliance voltage ± 20 V, max. current ± 400 mA: PGSTAT204Small and able to add one more module (e.g. EIS)
  • Advanced requirement: Compliance voltage ± 30 V, max. current ±2 A (upgradeable) : PGSTAT302NCustomizable with a range of modules
  • Stringent requirement: Compliance voltage ± 50 V, max. current ± 6 A: VIONIC powered by INTELLO Highest specification and multi-modules in one instrument

Workload

If you plan to run multiple experiments simultaneously, you might need a potentiostat with multiple channels.

Go to Mulitchannel Line

Go to Portable Multichannel Line

Portability

A portable potentiostat can be beneficial in various scenarios where mobility, fieldwork, or on-site measurements are necessary. Metrohm can provide both single-channel and multi-channel portable potentiostats.

Go to Portable Singlechannel Line

Go to Portable Multichannel Line

Hyphenated Electrochemistry with third-party instruments or Spectroelectrochemistry integrated into one instrument

lf your research requires synchronization of electrochemistry with optical measurements (or other complementary techniques), and you would like to have two independent instruments for electrochemistry and spectroscopy (or the instrument used in the complementary technique) as hyphenated or stand-alone solutions, you can consider our hyphenated solution.

The hyphenated solution includes a UV-Vis or Raman spectroscopy instrument and a Metrohm potentiostat. The Metrohm potentiostats/galvanostats can be purchased separately and used in specific hyphenated setups together with third party instruments. Please contact your local Metrohm support office for further details. With our hyphenated solution, you can enjoy the highest performance and  flexibility in both hardware and software selection.

Go to hyphenated spectroelectrochemistry instruments

 

You can also opt for the integrated product line. All components of spectroelectrochemical devices, i.e., potentiostat, spectrometer, and light source, are integrated in only one instrument with a dedicated software including all specific tools for spectroelectrochemical experiments, such as UV-Vis, NIR and Raman spectroscopy. With the integrated instruments, you benefit from the simplicity of the hardware set up and of working with a single software.

Go to integrated spectroelectrochemistry instruments

In a potentiostat, the grounded mode is used when none of the electrodes nor the cell vessel have a direct connection with the ground. This is the most commonly used mode for electrochemical experiments performed in laboratories (i.e., wet electrochemistry research, battery research, corrosion test in lab, etc.). If other devices are used during the electrochemical experiments, you can use the faraday cage to ground them.

The schematics of a VIONIC PGSTAT in non-floating mode. Please note the EARTH connection (always connected to the metallic chassis of the instrument) and the analog ground (AGND) connection and switch.

The floating mode must be used in the following three main cases:

  1. When the working electrode is directly connected to the Earth ground (grounded WE): Corrosion tests in open air, hydrogen permeation, in-situ electronic microscopy
  2. When the counter electrode is directly connected to the Earth ground (grounded CE): Bioreactors, autoclave
  3. When the entire cell is directly connected to the Earth ground (grounded Cell): Tribocorrosion, autoclave

For any of the above-mentioned cases, the correct measurement of the current is only possible if the potentiostat is used with the correct floating mode.

The schematics of a VIONIC PGSTAT in floating mode. Please note that the analog ground (AGND) is disconnected from the instrument chassis.

Selectable floating refers to the feature of potentiostats/galvanostats to choose the ground state of the cell setup. Due to the wide variation of experimental requirements and kinds of electrochemical cells, the use of an electrochemical instrument with a floating feature (such as VIONIC or µStat-i multiX among others) brings additional versatility to the user.

To perform an electrochemical hydrodynamic measurement and induce controlled hydrodynamic flow or convection, you need:

At Metrohm, we offer different models of potentiostats that can be used with our RDEs and RRDEs through dedicated software.

To simulate turbulent pipe-flow conditions in the lab for electrochemical corrosion research, the most common and practical approach is to use a Rotating Cylinder Electrode (RCE). The RCE setup recreates realistic turbulent flow conditions found inside pipes by rotating the electrode, which enhances mass transport and mimics the turbulent fluid flow experienced in real pipelines.

In addition, a potentiostat with dedicated software capable of controlling the rotating speed of the RCE is also essential.

White Paper: Corrosion Best Practice – Creating Pipe-flow Conditions Using a Rotating Cylinder Electrode

Yes, it is possible to perform electrochemical measurements with two or more working electrodes in the same cell. You can choose among different experimental setups based on your research needs.

If your research involves working with a Rotating Ring-Disk Electrode (RRDE) or a single screen-printed electrode that integrates two working electrodes, you will need a Bipotentiostat. At Metrohm, we offer different potentiostat models with Bipotentiostat functionality, such as the AUT302N and PGSTAT204 or portable models such as STAT-I-400.

If your research requires more than two working electrodes in the same electrochemical cell, other solutions are available:

  • Potentiostat with multiBA: for simultaneous measurements on up to six working electrodes or STAT-I MULTI16 for simultaneous measurements up to 16 working electrodes.
  • Potentiostat with Multiplexer Module (MUX-SCNR16): for sequential measurements on up to 128 working electrodes

To analyze EIS results, specialized software with data fitting tools is typically required. This process involves constructing an equivalent circuit in a flexible manner and fitting the calculated equivalent data to the measured results. Through this fitting process, the software determines and displays the quantitative values of each element in the circuit, allowing for a clear interpretation of the system’s electrochemical behavior.

At Metrohm, our potentiostat software, INTELLO, NOVA, and DropView 8400, provide all these features to ensure precise and reliable EIS data analysis.

Grounded 或 Floating 模式?

點此下載

本白皮書對 non-floating 和 floating 進行了定義,概述了每種模式的典型應用,並介紹了用於進一步客製化的補充配件。