major contributions, peer journals

Light–heat conversion dynamics in highly diversified water-dispersed hydrophobic nanocrystal assemblies

A.Mazzanti, Z. Yang, M. G. Silva, N. Yang, G. Rizza, P.E. Coulon, C. Manzonif, A. M. de Paula, G. Cerullo, G. Della Valle and M.P. Pileni
Proc. Natl. Acad. Sci. USA, 2019, 116,  8161-8166

We investigate, with a combination of ultrafast optical spec- troscopy and semiclassical modeling, the photothermal proper- ties of various water-soluble nanocrystal assemblies. Broadband pump–probe experiments with ∼100-fs time resolution in the vis- ible and near infrared reveal a complex scenario for their transient optical response that is dictated by their hybrid composition at the nanoscale, comprising metallic (Au) or semiconducting (Fe3 O4 ) nanostructures and a matrix of organic ligands. We track the whole chain of energy flow that starts from light absorption by the individual nanocrystals and subsequent excitation of out-of- equilibrium carriers followed by the electron–phonon equilibra- tion, occurring in a few picoseconds, and then by the heat release to the matrix on the 100-ps timescale. Two-dimensional finite- element method electromagnetic simulations of the composite nanostructure and multitemperature modeling of the energy flow dynamics enable us to identify the key mechanism presiding over the light–heat conversion in these kinds of nanomaterials. We demonstrate that hybrid (organic–inorganic) nanocrystal assem- blies can operate as efficient nanoheaters by exploiting the high absorption from the individual nanocrystals, enabled by the dilu- tion of the inorganic phase that is followed by a relatively fast heating of the embedding organic matrix, occurring on the 100-ps timescale.

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