Journal
ACS NANO
Volume 7, Issue 3, Pages 2573-2586Publisher
AMER CHEMICAL SOC
DOI: 10.1021/nn305971v
Keywords
colloidal nanoparticles; thermoelectricity; nanomaterial; nanocomposite; heterostructures; core-shell nanoparticles
Categories
Funding
- European Regional Development Funds (ERDF)
- Spanish MICINN [MAT2008-05779, MAT2010-15138, CSD2009-00050, CSD2009-00013]
- Generalitat de Catalunya [2009-SGR-770]
- ICREA Funding Source: Custom
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The bottom-up assembly of nanocrystals provides access to a three-dimensional composition control at the nanoscale not attainable by any other technology. In particular, colloidal nanoheterostructures, with intrinsic multiphase organization, are especially appealing building blocks for the bottom-up production of nanocomposites. In the present work, we use PbTe-PbS as the model material system and thermoelectricity as the paradigmatic application to investigate the potential of the bottom-up assembly of core-shell nanoparticles to produce functional nanocomposites. With this goal in mind, a rapid, high-yield and scalable colloidal synthetic route to prepare grams of PbTe@PbS core-shell nanoparticles with unprecedented narrow size distributions and exceptional composition control Is detailed. PbTe@PbS nanoparticles were used as building blocks for the bottom-up production of PbTe-PbS nanocomposites with tuned composition. In such PbTe-PbS nanocomposites, synergistic nanocrystal doping effects result In up to 10-fold higher electrical conductivities than in pure PbTe and PbS nanomaterials. At the same time, the acoustic impedance mismatch between PbTe and PbS phases and a partial phase alloying provide PbTe-PbS nanocomposites with strongly reduced thermal conductivities. As a result, record thermoelectric figures of merit (ZT) of similar to 1.1 were obtained from undoped PbTe and PbS phases at 710 K. These high IT values prove the potential of the proposed processes to produce efficient functional nanomaterials with programmable properties.
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