Low-temperature Bonding of Thick-film Polysilicon for MEMS

Polysilicon thick films have been found to be an irreplaceable option in various sensors and other microelectromechanical system (MEMS)-designs. Polysilicon is also a prospective option for replacing singlecrystal silicon in customized silicon-on-insulator-substrates. Due to the nature of polysilicon, bonding for MEMS-purposes has so far concentrated on anodic bonding, which has drawbacks for instance in terms of process duration and thermal load. The objective of this work is to develop low-temperature direct bonding for various polysilicon films. Polysilicon films were grown at varying temperatures and pressures with and without boron doping. The films were polished by chemical-mechanical polishing and cleaned. Surface qualities were studied by atomic-force-microscope before bonding. Wafers were then activated with argon plasma and bonded to oxidized silicon, quartz and glass. Bonding quality was evaluated with scanning-acoustic-microscope, the crack-opening-method and HF-etching. Scanning-electron-microscopy was used to investigate film and interface quality. This development has led to a new kind of polishing process, where several microns of polysilicon are removed still leaving surface direct bondable. This is accomplished by a dedicated and effectively planarizing polishing process. Spontaneous bonding took place and good bonding quality was achieved after annealing at 200°C.