Introduction and application of the Smallest ⌜Wireless⌟ EIS Potentiostat-EIWP100/110:
This is all-in-one model with basic electrochemical detection methods, AC impedance analysis and simulator function
WHAT IN BOX?

Design for your own “electrochemical AC impedance” sensor
Develop variety of different detection techniques
Different from the traditional electrochemical impedance spectrum (EIS) analyzer which has been used to corrosion, electro-deposition batteries and fuel cells and other electrochemical systems for a long time in the past. The EIWP series is said to be “born for sensors”. The technical specifications of the EIWp series fully meet the requirements of biosensor development. Electrochemical AC impedance technology can be developed into sensor products, such as: electrochemical immunoassay (antigen/antibody) sensor, capacitive biochemical sensor, biochemical virus sensor, gas sensor, etc.

3 EIS analysis +7 basic electrochemical method
Almost meet all the electrochemical sensor research requirements
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Equivalent Circuit Model curves fitting software
More comprehensive and prespective
analysis diagram for exploration
In addition to the Nyquist plot provided by the general commercial fitting softwares, Zensor provides it more intuitive with full prespective graphs. These include graphs of total impedance, phase, real part impedance and imaginary part impedance, which will help you quickly inspect the features during experiments.


Provide different precision fit
Zensor ECM software provides 10 levels of electrochemical-equivalent circuit fit precision, from fast preliminary fit to accurate fit, allowing you to make quick adjustments during experiments or to make precise analysis after the experiment . When faced with non-typical sensor impedance model or non-ideal data, the fit results can be adjusted more appropriately through chosing different levels for fit.

Auto Fit
Standard Models – quick and intuitive choices
Fit Levels – fast or precise results
Manual Fit
Specified Values – Input and see the effects
Designed Models – Build and edit your own ones
IMPE & IMPT analysis method help to develop electrochemical AC impedance sensor
Impedance – Potential (IMPE) method is to apply a fixed frequency sinusoidal wave crossing a voltage range. This method is similar to Linear Sweep Voltammetry (LSV) or Square Wave Voltammetry (SWV) methods introduced in 1.2 Electrochemical Methods , but the measuring result from Ohm’s Law (V = I R) becomes AC impedance Z = V/I instead of only resistance. With the IMPE method, certain substances in the electrochemical system reacts according to specific potentials, and the impedance of the system changes due to the reactions. Therefore, this method can be used to analyze the elements or components in the system. This method is a non-destructive technique to exam a sample material to characterize its properties, it can be used to detect and quantify the presence of analytes in samples such as waste water, biological fluids and air quality tests.


Impedance – Time (IMPT)
Impedance – Time (IMPT) method is to apply a single sinusoidal wave continued for a period of time. This method is similar to Amperometry (I-t) method introduced in 1.2 Electrochemical Methods , but the AC impedance is calculated instead of only resistance. The IMPT method is suitable for a continuous monitor to an electrochemical system. With properly tuning the potential and the frequency of the sinusoidal wave, the variation of subjected substance in the system can be detected if added or removed. As the method reads the impedance over time, it can be applied in dynamic microfluidic systems or flow cytometry systems for detecting various analytes, including ions, biomolecules, and cells.


Finger-sized wireless EIS potentiostat
The smallest and lightest, to be used in enclosed space
You can accurately control the experimental conditions in a very tight space, which can improve the stability of the experimental conditions. It is suitable for experiments that require accurate control of ambient gas concentration, temperature and other conditions

Wireless connection
Trend of the industry
Wireless potentiostat can meet the needs of developing remote sensors, suitable for outdoor, smart farm, smart home, smart medical, IoT sensors, etc.

Reliable 2.4G transmission technology, no pairing, plug and play
The data transmission distance is up to 20m

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Two Kinds of port, easy switch
Screen printed electrode or crocodile clips, changeable quickly in one-second



Specification:
Total Length: about 0.5m and suitable for ECWP and EIWP series
clips:
(A) Green – Working Electrodes(WE)
(B) White – Reference Electrodes(RE)
(C) Red – Counter Electrodes(CE)
The world’s first AC impedance analyzer equipped with ZENSOR classic electrochemical simulation function
Let non-electrochemical professionals understand what you’re doing
Did you know that only electrochemists really know what cyclic voltammetry is? Are you still using a bunch of boring charts to report your work ? What do you need to let non-electrochemists have a good understanding of your design and how it works in cross-departmental cooperation and communication, product proposal, application and final report of funding? That is what makes Electrochemical-Analyzer Simulator of Zensor unique. The Electrochemical-Analyzer Simulator of Zensor is an intuitive demo tool for communication. It hides all the complicated experimental steps setting and data processing in the background program and only show the final test results for a live demo that proves your design to be feasible and make it persuasive enough.

Assist you in completing market research and user-friendly test at the product design stage
Product designer can preset sampling prompts, test start time setting, electrochemical test process, data selection, data background processing, and concentration conversion steps, etc. in our software and run in the background progress. In addition, with the APP synchronous display function, product designer can complete the prototype easily without the need for customized mold and software. Wireless design and texture of the appearance are closer to the appearance of finished products.
Wireless and simulator function that use live test to their advantage completely
For samples that are difficult to be preserved after sampling, or for test results that need to be obtained immediately after complex data processing at the production line, clinic or outdoor sampling site, our wireless potentiostat with simulator-function is the perfect solution for you.
EIWP100 |
EIWP110 |
|
|---|---|---|
| Cyclic Voltammetry(CV) | ✓ | ✓ |
| AC Impedance(EIS) | ✓ | ✓ |
| Impedance – Time | ✓ | ✓ |
| Impedance – Potential | ✓ | ✓ |
| Amperometry(IT) | – | ✓ |
| Linear Sweep Voltammetry(LSV) | – | ✓ |
| Differential Pulse Voltammetry(DPV) | – | ✓ |
| Square Ware Voltammetry(SWV) | – | ✓ |
| Open Circuit Potentiometry(OCP) | – | ✓ |
| Multi-Channel | – | – |
| Specification | (A) Voltage scan range: +2 ~ -2(V)
(B) Current range : 1.0E-3 ~ 1.0E-9(A) (B) Current resolution : 0.5% of current (B) Maximum wireless distance: 20m (B) Frequency range: 0.2 Hz ~ 200k Hz |
|
| Operating System | Windows 10 and above | |
Which potentiostat best suitable your needs?
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|---|---|---|---|---|---|---|
| ECWP100single | ECWP100plus | EIWP100 | EIWP110 | MCP100 | ECAS100 | ACIP100 |
| wireless | wireless | wireless | wireless | USB powered | USB and battery powered + Offline use | USB and battery powered + Offline use |
| Simulation | Simulation | Simulation | Simulation | – | Simulation(editable chip)Note.1 | Simulation(editable chip)Note.1 |
| SPE availabel | SPE availabel | SPE availabel | SPE availabel | SPE availabel | SPE availabel | SPE availabel |
| 3 clips connector available | 3 clips connector available | 3 clips connector available | 3 clips connector available | 3 clips connector available | 3 clips connector available | 3 clips connector available |
| Single-channel | Maximum 8 channel | Single-channel | Single-channel | 10 channel | Single-channel | Single-channel |
| Need PC | Need PC | Need PC | Need PC | Need PC | 5.0 touch panel | 5.0 touch panel |
| CV/LSV/SWV/DPV/IT/OCP | CV/LSV/SWV/DPV/IT/OCP | CV | CV/LSV/SWV/DPV/IT/OCP | CV/IT/OCP | CV/LSV/SWV/DPV/IT/OCP | CV/IT/OCP |
| – | – | EIS 0.2Hz – 200kHz | EIS 0.2Hz – 200kHz | – | – | ACIP |
| – | – | IMPT | IMPT | – | – | IMPT |
| – | – | IMPE | IMPE | – | – | IMPE |
| +2~-2V | +2~-2V | +2~-2V | +2~-2V | +2~-2V | +2~-2V | +2~-2V |
| 10-3~10-9A | 10-3~10-9A | 10-3~10-9A | 10-3~10-9A | 10-2~10-10A | 10-2~10-10A | 10-2~10-10A |
| Detail-Info | Detail-Info | Detail-Info | Detail-Info | Detail-Info | Detail-Info | Detail-Info |
Note1:Simulation function-The test steps can be burned into replaceable smart chip, so a large number of test samples can be tested offline, and the result can be read directly on the panel .That will simulate the process of product development.




























