Abstract Nanodiamonds hosting colour centres are promising building blocks for quantum technologies, enabling advances in quantum computation 1,2 , nanoscale NMR spectroscopy 3–6 , single-spin magnetometry 7,8 , wide-field quantum imaging 9 and single-photon sources 10,11 . However, the controlled bottom-up synthesis of ultrasmall and structurally uniform nanodiamonds has remained a major challenge, with existing methods producing heterogeneous materials that vary in size, morphology, impurity content and defect quality. Here we show that well-defined, hydrogen-terminated molecular nanographenes serve as chemically confined precursors for high-pressure, high-temperature synthesis of ultrasmall (3–4 nm), monodisperse and highly crystalline molecular nanodiamonds (m-NDs) with only a single sp² surface reconstruction and produced on a milligram scale.…