This repository contains the data used to train the MAD-SURF potential, a machine learning interatomic potential based on the MACE-architecture tailored for the adsorption of molecules on coinage metals. The dataset has been acquired with a consistent DFT method: PBE with the Tkatchenko-Scheffler van der Waals correction employing C6 dipole-dipole dispersion coefficients specifically parametrized for surface screening. The dataset was acquired using a multi-source strategy to ensure structurally diverse data, including active learning for adsorption structures, molecular dynamics for distorted geometries, automated interaction site screening for intermolecular interactions, and normal mode sampling for intramolecular interactions. The repository also contains the structures and trajectories needed to produce the Figures in the corresponding MAD-SURF article, and finally, the trained model potentials. Brief description of file contents: dataset.zip: contains large and and small training and test datasets for MAD-SURF dataset_with_config_types.zip: contains the full dataset with annotated entries according to source type, i.e. molecular dynamics, bayesian optimization structure search, normal mode sampling, etc. Can be used to provide custom weights based on data type during (re)training. models.zip: all of the potentials trained during this work. The MAD-SURF model used in the article is also uploaded here as MAD-SURF.model, corresponding to the same model as in models/finetuned/foundational_model/on_training_subset/ fig_3_aggregated_aromatic_hydrocarbons_cu111.zip: the relaxed structures of the hydrocarbon aggregates on Cu111. fig_4_organic_monolayers.zip: the relaxed structures of the herringbone (HB) and brick wall (BW) monolayer phases of PTCDA and Pentacene on Cu111, Ag111 and Ag110. fig_5_beta_cyclodextrin_au111.zip: the relaxed structures of the primary and secondary faces in both clockwise and counter-clockwise hydrogen bonding networks. fig_6_Au_herringbone_reconstruction.zip: the LAMMPS input and output files for the relaxation of the Au111 herringbone reconstruction model, one with the bottom layer fixed and one where it is fully relaxed, as well fig_7_pentacene_large_scale_dynamics.zip: the LAMMPS input and output files for the large scale molecular dynamics simulations of the random tiling pentacene monolayer containing 118 pentacene molecules on a 13.27×13.71 nm^2 Cu111 substrate. The archive also contains the MAD-SURF model converted to LAMMPS type potential (.pt). However, it is recommended that the LAMMPS potential is recreated in the actual computing enviroment that is used.