The demand for smaller microenvironments in modern electronics has prompted a search for new solutions, with the MXene (Mn+1XnTx) family emerging as a strong candidate due to its unique properties. This research focuses on incorporating microelectronics into micropatterned structures using cost-effective methods, opening up possibilities for smart devices and microsystems. The study details the synthesis and processing of titanium carbide (Ti3AlC2)-based MXene nanoparticles, with a novel in situ etching method to create multi-layered MXene (Ti3C2Tx) nanosheets. Water-based Ti3C2Tx inks in various concentrations were examined, and 3D printing was used to create micropatterned MXene layers with anisotropic electrical properties and energy storage potential, making them promising for 3D printable devices.