2019
DOI: 10.1021/acs.jpcc.9b02692
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Resolving Detonation Nanodiamond Size Evolution and Morphology at Sub-Microsecond Timescales during High-Explosive Detonations

Abstract: Characterization of the initial morphology of detonation nanodiamond (DND) has been the focus of many research studies that aim to develop a fundamental understanding of carbon condensation under extreme conditions. Identifying the pathways of DND formation has the potential for significant impact on many of the controlled synthesis of nanoscale carbon with a tailored functionality; currently, a wide range of possible (and conflicting) mechanisms of nucleation and growth have been proposed, and further researc… Show more

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Cited by 21 publications
(40 citation statements)
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“…Copious detonation nanodiamond appears in TEM imaging of recovered soots from both the conventional and the colliding detonation, and determination of the most prevalent morphology in the products facilitates the SAXS modeling. Collected recovered detonation products from colliding detonations contain an abundance of detonation nanodiamond (Figure ) and some graphitic fibers, all similar in size and morphology to what has been observed during conventional Composition B detonations . Electron diffraction confirms a mixture of graphite and diamond, with extensive regions of high diamond content.…”
Section: Resultsmentioning
confidence: 61%
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“…Copious detonation nanodiamond appears in TEM imaging of recovered soots from both the conventional and the colliding detonation, and determination of the most prevalent morphology in the products facilitates the SAXS modeling. Collected recovered detonation products from colliding detonations contain an abundance of detonation nanodiamond (Figure ) and some graphitic fibers, all similar in size and morphology to what has been observed during conventional Composition B detonations . Electron diffraction confirms a mixture of graphite and diamond, with extensive regions of high diamond content.…”
Section: Resultsmentioning
confidence: 61%
“…The evolution of the temperature and pressure, obtained by thermochemical modeling, superimposed on the carbon phase diagram, appears in Figure b. The conventional detonation C−J is deeply within pressure and temperature conditions for diamond as previously demonstrated . In the colliding case, the pressure‐temperature evolution is highly position‐dependent because the x‐ray scattering measurement samples all points along a diameter through the part with a beam that is ∼100 μm wide and 50 μm tall, while the angle between curved detonation fronts locally continuously changes with position from planar at the central position to angled at the cylinder edge.…”
Section: Resultsmentioning
confidence: 99%
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