Identification and differentiation of the red ink entries of seals on document by laser desorption ionization mass spectrometry.

The establishment of approaches for the differentiation of the ink entries of seals on paper can provide evidence to authenticate the related documents and can play a key role in judicial expertise. The identification and discrimination method for 38 red ink entries of seals on paper has been investigated using laser desorption ionization mass spectrometry (LDI-MS). Six dye components for the ink pastes of seals, Scarlet powder (SP), Bronze Red C (BR), Fast Red R (FR), Basic Violet 3 (BV3), Pigment Red 22 (PR22) and Pigment Red 112 (PR112), have been identified by their LDI-MS spectra, and the results have been confirmed by electrospray ionization quadruple-time of flight mass spectrometry (QTOF-ESI-MS/MS) and inductively coupled plasma atomic emission spectrometry (ICP-AES). The 38 ink entries were classified into six groups based on the presence or the absence of the pigments in their positive and negative LDI-MS spectra, and the discrimination power (DP) was calculated to be about 82%. The ink entries within each group were further differentiated from the relative peak areas (RPA) of the fragments for the pigments and the profile of their LDI-MS spectra, and thus the DP was increased to 98%. All the 38 ink entries could be discriminated (the DP was 100%), if including the contribution of unknown peaks. Compared with the results obtained by the FTIR and Raman methods, the established LDI-MS approach could provide more information of the dye components in the ink entries. The results showed that the developed LDI-MS method is powerful, sensitive and rapid and can directly differentiate the red ink entries of seals from paper substrates, thus offering a novel approach to judge the authenticity of documents.