Loeffler, Felix F.Felix F.LoefflerWagner, J.J.WagnerKonig, K.K.KonigMarkle, F.F.MarkleFernandez, S.S.FernandezSchirwitz, C.C.SchirwitzTorralba, G.G.TorralbaHausmann, M.M.HausmannLindenstruth, V.V.LindenstruthBischoff, F. R.F. R.BischoffBreitling, F.F.BreitlingNesterov, AlexanderAlexanderNesterov2025-12-082025-12-082011-01-01Aerosol Science and Technology 45 (1): 65-74 (2011)https://hdl.handle.net/11420/59536The behavior of charged bio polymer micro particles when deposited onto a CMOS chip can be analytically modeled in form of the incompressible Navier-Stokes equation and the electrostatic Poisson equation, as we describe in this article. Based on these models, numerical simulations of depositions can be implemented in COMSOL that lead to improvements in the experimental setup, optimizing the size and charge distribution of the micro particles. Adapting the experiments according to the simulation results, we will show the powerful gain in deposition precision, which is essential for a contamination-free deposition and hence high quality combinatorial deposition.en#PLACEHOLDER_PARENT_METADATA_VALUE#201116574Technology::600: TechnologyJournal Article10.1080/02786826.2010.517814Journal Article