Specific Process Knowledge/Thin film deposition/Deposition of Silicon Oxide/Deposition of Silicon Oxide using LPCVD TEOS: Difference between revisions

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+==B2 Furnace LPCVD TEOS==
 [[Image:teos1.jpg|300x300px|thumb|Figure 1: TEOS structure]]
 [[Image:teos2.JPG|300x300px|thumb|Figure 2: TEOS deposited in a trench etched in Silicon]]
 Danchip have one [[Specific Process Knowledge/Thin film deposition/B3 Furnace LPCVD TEOS|LPCVD furnace]] for deposition of TEOS: The furnace was installed in 1995 and can handle 4" wafers. It is furthermore possible to dope the TEOS with either Boron or phosphorous.
-TEOS is Tetra-Ethyl-Ortho-Silicate, it is also sometimes referred to as Tetra-Ethoxy-Silane. The difference between TEOS and Silane is essentially that is TEOS the silicon atom is already oxidised. Therefore the conversion of TEOS to Silicon dioxide is a rearrangement rather than an oxidation. As can be seen from figure 1 what is basically required to deposit Silicon dioxide is a removal of two oxygen atoms for that a relative high temperature of 725 degrees C.
+TEOS is Tetra-Ethyl-Ortho-Silicate, it is also sometimes referred to as Tetra-Ethoxy-Silane. The difference between TEOS and Silane is essentially that is TEOS the silicon atom is already oxidised. Therefore the conversion of TEOS to Silicon dioxide is a rearrangement rather than an oxidation. As can be seen from figure 1 what is basically required to deposit Silicon dioxide is a removal of two oxygen atoms for that a relative high temperature of 725 <sup>o</sup>C.
 On the new LPCVD TEOS furnace there are two standard processes for deposition, one for thin oxides called TEOSPNE and one for thicker oxides called TEOSSLOW. The only difference is that in the case of the TEOSSLOW recipe the furnace opens significantly slower. Thick TEOS layers have a tendency to form cracks if they are moved to fast out of the furnace.