Dear Daniel, you can try sth with LIGA technique, but it is quite expensive, If the stack should consist of at least 3 stacked capacitors, I think I would like try to arrange it within SOi wafer plus additional bonding with Si wafer. There is also so called MUMPs processes based on polysilicon (MEMSCAP company) I have never met yet such type of stacked capacitors. But about 3D structure try to find in such articles like: A.A. Yassen, S.W. Smith, M. Mehregany, F.L. Merat, “High-aspect rotary polygon micromotor scanners”, Sensors and Actuators A czy B 77:73-79, 1999 A.A. Yassen, J.N. Mitchell, D.A. Smith, M. Mehregany, “Diffraction grating scanners using polysilicon micromotors”, In Proc. IEEE: 1999, pp. L. Fan, M.C. Wu, “Self-Assembled Micro-XYZ Stage with Micro-Ball Lens for Optical Scanning and Alignment”, In Proc: International Conference on Optical MEMS and Their Applications, MOEMS' 97, 18-21 Nov. 1997, Japan , pp. L.Y. Lin, E.L Goldstein, R.W. Tkach, “Free-Space Micromachined Optical Switches for Optical Networkingal Bench”, IEEE Journal of Selected Topics in Quantum Electronics 5 (1):4-9, 1999 Good luck! Karolina Hi guys, I am wondering which micromechanical processes exist to obtain high-storage multistack capacitors. I imagine you may realize it or by employing multiple lithographic steps for each metal plate / dielectrics, or, by patterning, transferring and bonding of a lot of single plates into multi-stacks. I could not find any methods, reports, papers around describing the actual methods of small footprint capacitors. Any help and references are highly welcome. Bye Daniel