Hello Yilmaz I try some answers to your question: 1. it is impossible to introduce a resist into the SOI-material instead of the BOX-oxide since this is a high temperature process far above the temperatures resist can withstand 2. the thermal expansion coefficient od ALL the organic materials is by far (more than a factor of 100 !!!) higher than the expansion coefficient of Silicon-Oxide. Silicon is inbetween both - so with the oxide after cooling down (delta T roughly 1000°C) you get the comprssive stress in the BOX-oxide, in case of resists the temperature difference is lower (roughly 100°C) but the expansion coefficient difference much higher and hence you end up with a high tensile stress in the resist. Regards Arno -----Ursprüngliche Nachricht----- Von: mems-talk-bounces+arno.steckenborn=siemens.com@memsnet.org [mailto:mems- talk-bounces+arno.steckenborn=siemens.com@memsnet.org] Im Auftrag von my2232@columbia.edu Gesendet: Dienstag, 18. Januar 2011 06:10 An: mems-talk@memsnet.org Betreff: [mems-talk] stress state of photoresists Hello mems-talk community, I have a question about the stress state of resists after they are developed, and ready for masking purposes. To give an example related to my question: I am working with SOI wafers, and the BOX oxide is in compressive state of stress. Hence, once you remove some parts of the silicon layers from certain places of your wafer (espacially if the silicon is removed from same location of both sides of the BOX layer) you will see that the BOX layer oxide will tend to have wrinkles, which indicates that the BOX oxide is in compressive state, and once it is free to move it will buckle up and down to change its stress state. Now, my questions is: What would be the case if we were using resist as BOX instead of thermal oxide as BOX? Would it be in compressive stress, and buckle up and down, or would it be in tensile state of stress and keep staying in completely flat (no wrinkles at all) state? The result may depend on the resist we are using, but I would be glad if someone can tell me if there is a resist with tensile state of stress? I am looking forward to your replies, and Thanks in advance, Mehmet Yilmaz Mechanical Engineer