2018
DOI: 10.1021/acs.cgd.7b01304
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Formation Mechanisms of Nanocrystalline MnO2 Polymorphs under Hydrothermal Conditions

Abstract: Understanding and controlling the polymorphism of manganese dioxide (MnO 2 ) is of vital importance in many nanoscale applications. Here in situ powder X-ray diffraction (PXRD) in combination with in situ total X-ray scattering are used to reveal the formation mechanism as well as polymorph evolution of MnO 2 under hydrothermal synthesis conditions. A "PXRD invisible" amorphous phase with a local structure resembling α-MnO 2 (denoted α-MnO 2 (A)) is observed at all reaction stages, and it never fully disappear… Show more

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Cited by 63 publications
(40 citation statements)
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“…A more quantitative understanding of the thermochemistry of the electrochemical double layer, especially as a function of surface chemistry and electronic structure, will provide an additional handle to engineer crystallization pathways in solution. Additionally, solid-solid transformations, for example, by H-ion or Mn-ion migration within an oxygen sublattice 53,54 , could be a competing structure transformation mechanism to dissolution-reprecipitation 55 . The energy barriers of ion-diffusion (units of meV/atomic hop) and crystal nucleation (units of meV/ nucleus) have different units, and therefore the relative kinetics between these two competing mechanisms cannot be directly compared.…”
Section: Discussionmentioning
confidence: 99%
“…A more quantitative understanding of the thermochemistry of the electrochemical double layer, especially as a function of surface chemistry and electronic structure, will provide an additional handle to engineer crystallization pathways in solution. Additionally, solid-solid transformations, for example, by H-ion or Mn-ion migration within an oxygen sublattice 53,54 , could be a competing structure transformation mechanism to dissolution-reprecipitation 55 . The energy barriers of ion-diffusion (units of meV/atomic hop) and crystal nucleation (units of meV/ nucleus) have different units, and therefore the relative kinetics between these two competing mechanisms cannot be directly compared.…”
Section: Discussionmentioning
confidence: 99%
“…[203][204][205][206] In situ PDF studies, on the other hand, allow for identication and characterization of disordered or amorphous intermediate structures and species in solution, which are important in nanomaterials. For example, in studies of nanomaterial synthesis, in situ PDF analysis gives the possibility for studying the atomic structure of the species present before, during and aer crystallization of nanoparticles, 183,[207][208][209][210][211][212][213][214][215][216][217][218][219] which is essential for gaining a deeper understanding of material nucleation processes, where atomic scale mechanistic information generally is scarce. Knowledge of the relation between chemical synthesis and the resulting atomic structure of the material is crucial in the advancement of nanoscience.…”
Section: Size-dependent Structure In Metallic Nanoparticlesmentioning
confidence: 99%
“…While phase diagrams offer guiding insights on the relative stability of reaction end-products, little is known about the energy landscape that a material traverses as it nucleates and grows. There is growing evidence of the complexity of this energy landscape, as well-crystallized transient metastable phases are often observed to form before the equilibrium phase, during both solid-state 5 8 and aqueous synthesis 9 , 10 . Furthermore, minor variations in synthesis conditions can affect the lifetimes of these metastable phases 11 , or even redirect a crystallization pathway through very different metastable phases 12 , 13 .…”
Section: Introductionmentioning
confidence: 99%