Figure 3.

AM (also called 3D printing) methods relevant to biomedical sensors. a) Fused deposition modeling (FDM) system for printed sensors such as an electrochemical sensor for lactate sensing.^[63] b) An example of biosensor (microfluidic e-tongue sensor) manufactured by FDM (image reproduced with permission).^[63] Copyright 2017, Elsevier. c) Schematic representation of direct ink write (DIW) 3D printer.^[65] d) A picture of implanted soft biosensor used for simultaneous epicardial recording of ECG signal from murine.^[65] e) SLA-based 3D printing wherein the manufacture of a microfluidic device is taken for demonstration.^[23] f) Set up of a two photon polarization (2PP) with associated optical circuitry.^[73] g) An optical fiber based probe manufactured by 2PP and used for rapid detection of bacteria.^[74] Image reproduced with permission.^[74] Copyright 2020, Wiley-VCH. h) SLS-based 3D printer used to fabricate microfluidic electrochemical sensors.^[75] i) An inkjet printer,^[76] and j) A photograph of OTFT biosensor fabricated by inkjet printer.^[76] Image reproduced with permission.^[76] Copyright 2015, Wiley-VCH. k) Schematic of aerosol jet 3D NP printing process with ultrasonic and pneumatic automizers to generate aerosol droplets which are moved to the nozzle via a carries gas and focused aerodynamically to print biomedical devices such as neural probes (brain-computer interfaces).^[39] The categorization of the 3D printing methods in this figure according to ASTM Standard F2792–12a is given in Table 1.