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Literature DB >> 26034277

Imaging transient melting of a nanocrystal using an X-ray laser.

Jesse N Clark¹, Loren Beitra², Gang Xiong², David M Fritz³, Henrik T Lemke³, Diling Zhu³, Matthieu Chollet³, Garth J Williams³, Marc M Messerschmidt³, Brian Abbey⁴, Ross J Harder⁵, Alexander M Korsunsky⁶, Justin S Wark⁷, David A Reis⁸, Ian K Robinson⁹.

Abstract

There is a fundamental interest in studying photoinduced dynamics in nanoparticles and nanostructures as it provides insight into their mechanical and thermal properties out of equilibrium and during phase transitions. Nanoparticles can display significantly different properties from the bulk, which is due to the interplay between their size, morphology, crystallinity, defect concentration, and surface properties. Particularly interesting scenarios arise when nanoparticles undergo phase transitions, such as melting induced by an optical laser. Current theoretical evidence suggests that nanoparticles can undergo reversible nonhomogenous melting with the formation of a core-shell structure consisting of a liquid outer layer. To date, studies from ensembles of nanoparticles have tentatively suggested that such mechanisms are present. Here we demonstrate imaging transient melting and softening of the acoustic phonon modes of an individual gold nanocrystal, using an X-ray free electron laser. The results demonstrate that the transient melting is reversible and nonhomogenous, consistent with a core-shell model of melting. The results have implications for understanding transient processes in nanoparticles and determining their elastic properties as they undergo phase transitions.

Keywords: X-ray laser; coherent diffraction; phase transition; pump-probe; ultrafast imaging

Year: 2015 PMID： 26034277 PMCID： PMC4475963 DOI： 10.1073/pnas.1417678112

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

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