Abstract
Layer-by-layer characterization of modern and historic paintings is essential for understanding how an artwork was created and how it has changed over time. This information can reveal historical or societal insights, inform attribution and classification, and support preservation efforts. The determination of the identity, structure, and composition of art material remains challenging due to the complex, multilayered nature of paintings. These structures often contain mixtures of organic and inorganic components, with unknown in situ chemical interactions, that create cross-linked and chemically modified molecular networks and assemblies. In this work, we have developed a method with high chemical specificity to identify and map organic and inorganic components in modern and historic multilayered paint systems. Our approach achieves an unprecedented level of molecular detail using a single technique. In addition, we have designed the method for automated composition assignment of individual layer through high-resolution matrix-assisted laser desorption/ionization (MALDI) mass spectrometry imaging (MSI) and a dedicated composition prediction model.