We present a new technology which enables the local resolution production of polymer-based micro-optical components,e.g. in photonic 3D packaging systems. The main advantage of this innovative technology is the capability to dispenseliquids of a wide viscosity range (200 – 10.000 mPa*s) on a picoliter scale enabling the use of solvent-free liquid polymers.The newly engineered picoliter dispensing system features the possibility to place liquids on substrates with highpositioning accuracy and high flexibility of volume variation and shape. The placement of active and passive micro-opticalcomponents for photonic packaging plays an important role in improving optical interfaces, especially in data and telecomapplications and optical sensor technology. In this work the capability of this picoliter dispensing system is exemplarilydemonstrated on single detached microlenses as well as microlens arrays (MLA) using solvent-free, viscous UV curablehybrid polymers OrmoComp® and OrmoClear®FX. The preliminary results of optical characterisations of the fabricatedcomponents verify the advantage of this novel technology over competitive manufacturing methods such as inkjet printingin terms of printability of solvent-free polymers since a comparable optical performance can be obtained while savingsolvent evaporation steps.
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