Short-lived calcium carbonate precursors observed in situ via Bullet-dynamic nuclear polarization

Abstract

The discovery of (meta)stable pre-nucleation species (PNS) challenges the established nucleation-and-growth paradigm. While stable PNS with long lifetimes are readily accessible experimentally, identifying and characterizing early-stage intermediates with short lifetimes remains challenging. We demonstrate that species with lifetimes ≪ 5 s can be characterized by nuclear magnetic resonance spectroscopy when boosted by ‘Bullet’ dynamic nuclear polarization (Bullet-DNP). We investigate the previously elusive early-stage prenucleation of calcium carbonates in the highly supersaturated concentration regime, characterizing species that form within milliseconds after the encounter of calcium and carbonate ions and show that ionic pre-nucleation species not only govern the solidification of calcium carbonates at weak oversaturation but also initiate rapid precipitation events at high concentrations. Such, we report a transient co-existence of two PNS with distinct molecular sizes and different compositions. This methodological advance may open new possibilities for studying and exploiting carbonate-based material formation in unexplored parts of the phase space. Identifying and characterizing early-stage pre-nucleation species intermediates with short lifetimes remains challenging. Here, the authors study early-stage prenucleation of calcium carbonates from highly supersaturated solutions and characterize species with lifetimes below 5 seconds via ‘Bullet’ dynamic nuclear polarization NMR spectroscopy.