Abstract
A strong research effort is presently aimed at patterning methodologies for obtainingcontrolled defined micrometric polymeric structures for a wide range of applications,including electronics, optoelectronics, sensors, medicine etc. Lasers have been identified asappropriate tools for processing of different materials, such as ceramics and metals, butalso for soft, easily damageable materials (biological compounds and polymers).In this work we study the dynamics of laser induced forward transfer (LIFT)with a gap between the donor and the receiver substrates, which is the basis forpossible applications that require multilayer depositions with high spatial resolution.
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