Colloidal
lead halide perovskite nanocrystals (NCs) have recently
emerged as a novel class of bright emitters with pure colors spanning
the entire visible spectral range. Contrary to conventional quantum
dots, such as CdSe and InP NCs, perovskite NCs feature unusual, defect-tolerant
photophysics. Specifically, surface dangling bonds and intrinsic point
defects such as vacancies do not form midgap states, known to trap
carriers and thereby quench photoluminescence (PL). Accordingly, perovskite
NCs need not be electronically surface-passivated (with, for instance,
ligands and wider-gap materials) and do not noticeably suffer from
photo-oxidation. Novel opportunities for their preparation therefore
can be envisaged. Herein, we show that the infiltration of perovskite
precursor solutions into the pores of mesoporous silica, followed
by drying, leads to the template-assisted formation of perovskite
NCs. The most striking outcome of this simple methodology is very
bright PL with quantum efficiencies exceeding 50%. This facile strategy
can be applied to a large variety of perovskite compounds, hybrid
and fully inorganic, with the general formula APbX3, where
A is cesium (Cs), methylammonium (MA), or formamidinium (FA), and
X is Cl, Br, I or a mixture thereof. The luminescent properties of
the resulting templated NCs can be tuned by both quantum size effects
as well as composition. Also exhibiting intrinsic haze due to scattering
within the composite, such materials may find applications as replacements
for conventional phosphors in liquid-crystal television display technologies
and in related luminescence down-conversion-based devices.
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