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Electrochemical measurement devices called screen-printed electrodes (SPEs) are created by printing several types of Electrode ink on ceramic or plastic substrates.
SPEs enable speedy in-situ examination with high repeatability, sensitivity, and accuracy. The selectivity and sensitivity of the electrode are governed by the makeup of the several inks (carbon, silver, gold, and platinum) employed in its manufacturing.
This information enables the analyst to create the device that is most suitable for the task at hand. The necessity to shrink the devices’ size, which implies a reduction in the amount of sample needed for each experiment, gave rise to the evolution of these electrochemical cells.
The development of SPEs has also made it possible to lower production costs. Silver and carbon-based inks are the most popular, but other metals like platinum, gold, palladium, or copper can also be used to make electrodes inks.
The Global Electrode Inks market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
A range of silver-silver chloride (Ag-AgCl) Electrode inks for sensors, ECG, EEG, TENS, and defibrillator electrodes are created and produced by Creative Materials.
They create our inks to have a variety of ratios (Ag: AgCl) so that they may match a particular ink with the conductivity and sensitivity needs of an electrode.
Electrically conductive inks made of silver-silver chloride are appropriate for screen printing, pad printing, syringe dispensing, dipping, spraying, flexographic printing, and rotogravure printing.
They can be used on a range of substrates, including polyimide, PEEK, PET, polycarbonate, and glass. The inks for CMI medical electrodes exhibit a variety of qualities, such as compatibility with hydrogels with a high salt content, watery ink, and abrasion resistance.