Title :
Low temperature adhesive wafer bonding using OSTE(+) for heterogeneous 3D MEMS integration
Author :
Forsberg, F. ; Saharil, F. ; Stemme, Goran ; Roxhed, Niclas ; van der Wijngaart, W. ; Haraldsson, Tommy ; Niklaus, Frank
Author_Institution :
Microsyst. Technol. Lab., KTH R. Inst. of Technol., Stockholm, Sweden
Abstract :
We demonstrate, for the first time, the use of off stoichiometry thiolene-epoxy, OSTE(+) for adhesive wafer bonding. The dual cure system, with an initial UV-curing step followed by a second thermal cure, allows for high bond strength and potentially high quality material interfaces. We show that cured OSTE(+) is easily removed in oxygen plasma and that the characteristics of OSTE(+) make it a potential candidate for use in heterogeneous 3D MEMS integration. Furthermore, we show how the bond energies of wafers bonded with OSTE(+) adhesive compares with the bond energies of wafers bonded with Cyclotene 3022-46 (BCB) and mr-I 9150XP nanoimprint resist.
Keywords :
adhesive bonding; microfabrication; micromechanical devices; wafer bonding; Cyclotene 3022-46(BCB); OSTE(+); bond energies; dual-cure system; heterogeneous 3D MEMS integration; high-bond strength; high-quality material interfaces; initial UV-curing step; low-temperature adhesive wafer bonding; mr-I 9150XP nanoimprint resist; off stoichiometry thiolene-epoxy; oxygen plasma; second thermal cure; Bonding; Curing; Glass; Plasma temperature; Polymers; Silicon; Wafer bonding;
Conference_Titel :
Micro Electro Mechanical Systems (MEMS), 2013 IEEE 26th International Conference on
Conference_Location :
Taipei
Print_ISBN :
978-1-4673-5654-1
DOI :
10.1109/MEMSYS.2013.6474248
