Abstract: A two carbon atom linkage alkanolamine compound composition comprises the two carbon atom linkage alkanolamine compound, gallic acid or catechol, and optionally, an aqueous hydroxylamine solution. The balance of the composition is made up of water, preferably high purity deionized water, or another suitable polar solvent. A process for removing photoresist or other residue from a substrate, such as an integrated circuit semiconductor wafer including titanium metallurgy, comprises contacting the substrate with the composition for a time and at a temperature sufficient to remove the photoresist or other residue from the substrate. Use of the two carbon atom linkage alkanolamine compound in the composition and process provides superior residue removal without attacking titanium or other metallurgy, oxide or nitride layers on the substrate.

Abstract: A hydroxylamine-gallic compound composition comprises a hydroxylamine compound, at least one alcohol amine compound which is miscible with the hydroxylamine compound and a gallic compound. A process for removing photoresist or other polymeric material or a residue from a substrate, such as an integrated circuit semiconductor wafer including titanium metallurgy, in accordance with this invention comprises contacting the substrate with a hydroxylamine compound, an alcohol amine compound which is miscible with the hydroxylamine compound and a gallic compound for a time and at a temperature sufficient to remove the photoresist, other polymeric material or residue from the substrate. Use of a gallic compound in place of catechol in the composition and process reduces attack on titanium metallurgy by, e.g., about three times.