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7854612 
Journal Article 
Kinetic origins of the metastable zone width in the manganese oxide Pourbaix diagram 
Chen, BorR; Sun, W; Kitchaev, DA; Stone, KH; Davis, RC; Ceder, G; Schelhas, LT; Toney, MF 
2021 
Journal of Materials Chemistry A
ISSN: 2050-7488
EISSN: 2050-7496 
12 
7857-7867 
WOS:000635284900049 
Pourbaix diagrams show solid-aqueous phase stability as a function of pH and redox potential and can be a valuable tool to guide the hydrothermal synthesis of transition metal oxides. However, the Pourbaix diagram is based on thermodynamics, and nucleation kinetics are not readily apparent in this framework. Here, we conduct a combined experimental and theoretical study to measure the onset of MnO2 precipitation from an MnO4-(aq) solution at various pH conditions, which we then compare against Pourbaix diagram phase boundaries. Using a combination of in situ X-ray absorption spectroscopy and X-ray wide-angle scattering, we directly observe the transformation kinetics from the tetrahedral MnO4-(aq) ion to octahedrally coordinated Mn pre-nuclei, as well as its initiation into crystalline delta ' -MnO2 at various pH. The kinetics of octahedral-Mn precursor availability is observed to govern induction times of crystalline MnO2 nucleation, which results in a metastable zone width in the Mn-H2O Pourbaix diagram. These results suggest that synthesis conditions often need to be prepared far beyond the phase boundaries in a Pourbaix diagram to initiate crystallization within a reasonable timescale.