Etching kinetics for several silicon dioxide films in various hydrofluoric acid solutions have been studied. The low temperature silicon dioxide films were deposited at 450°C and 300 mTorr in
SiH4
,
O2
, and
PH3
and annealed at 950°C for 1 h. The thermal oxides were grown at 1100°C in
H2O
and
O2
. Four hydrofluoric acid solutions were used: dilutions of 49 weight percent
HF
with deionized water, buffered hydrofluoric acid, surfactant‐buffered hydrofluoric acid, and hydrofluoric acid/hydrochloric acid mixtures. Expressions for etch rate as a function of hydrofluoric acid concentration are presented. Notably, the etching of the low temperature oxides was of the order 1.6–2.0 in
HF
solutions and of the order 0.5–1.0 in buffered
HF
solutions. The etching of the thermal oxide was of the order 1.37–1.5 in
HF
and of the order 0.75–1.07 in buffered
HF
solutions. The results for the
HF
solutions provide evidence of a two‐part etching mechanism: first, the acidity causes the formation of the silanol bonds on the silicon dioxide surface and, then, the fluorine species react with the silicon to form
SiF4false(normalgfalse)
which is soluble in water and forms
H2SiF6false(normalaqfalse)
. Significant enhancement (as much as 600%) in the etch rate was observed when hydrochloric acid was added to the
HF
solutions.