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Recently, 3D-printing technology has emerged as an unconventional, cost-effective, and user-friendly method for prototyping, developing, and fabricating objects, which can be directly used for scientific applications, as well as for developing prototypes and final products. The increasing number of applications includes energy storage devices, biomedical equipment, analytical platforms, and low-cost diagnostic devices. Notable examples of 3D-printed objects for electroanalytical diagnostics include electrochemical cells, electrodes, and microfluidic devices. In this chapter, we will focus on the basic aspects of 3D-printing technology, the materials used for fabricating electrochemical low-cost diagnostic devices, and their development and performance.

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