Heat-driven acoustic phonons in lamellar nanoplatelet assemblies

Benjamin T. Diroll, Vladislav Kamysbayev, Igor Coropceanu, Dmitri V. Talapin, Richard D. Schaller

Research output: Contribution to journalArticle

Abstract

Colloidal CdSe nanoplatelets, with the electronic structure of quantum wells, self-assemble into lamellar stacks due to large co-facial van der Waals attractions. These lamellar stacks are shown to display coherent acoustic phonons that are detected from oscillatory changes in the absorption spectrum observed in infrared pump, electronic probe measurements. Rather than direct electronic excitation of the nanocrystals using a femtosecond laser, impulsive transfer of heat from the organic ligand shell, excited at C-H stretching vibrational resonances, to the inorganic core of individual nanoplatelets occurs on a time-scale of <100 ps. This heat transfer drives in-phase longitudinal acoustic phonons of the nanoplatelet lamellae, which are accompanied by subtle deformations along the nanoplatelet short axes. The frequencies of the oscillations vary from 0.7 to 2 GHz (3-8 μeV and 0.5-1 ns oscillation period) depending on the thickness of the nanoplatelets - but not their lateral areas - and the temperature of the sample. Temperature-dependence of the acoustic phonon frequency conveys a substantial stiffening of the organic ligand bonds between nanoplatelets with reduced temperature. These results demonstrate a potential for acoustic modulation of the excitonic structure of nanocrystal assemblies in self-assembled anisotropic semiconductor systems at temperatures at or above 300 K.

Original languageEnglish
Pages (from-to)9661-9668
Number of pages8
JournalNanoscale
Volume12
Issue number17
DOIs
Publication statusPublished - May 7 2020

ASJC Scopus subject areas

  • Materials Science(all)

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    Diroll, B. T., Kamysbayev, V., Coropceanu, I., Talapin, D. V., & Schaller, R. D. (2020). Heat-driven acoustic phonons in lamellar nanoplatelet assemblies. Nanoscale, 12(17), 9661-9668. https://doi.org/10.1039/d0nr00695e