Nanocrystals of Lead Chalcohalides: A Series of Kinetically Trapped Metastable Nanostructures

We report the colloidal synthesis of a series of surfactant-stabilized lead chalcohalide nanocrystals. Our work is mainly focused on Pb 4 S 3 Br 2 , a chalcohalide phase unknown to date that does not belong to the ambient-pressure PbS-PbBr 2 phase diagram. The Pb 4 S 3 Br 2 nanocrystals herein feature a remarkably narrow size distribution (with a size dispersion as low as 5%), a good size tunability (from 7 to ∼30 nm), an indirect bandgap, photoconductivity (responsivity = 4 ± 1 mA/W), and stability for months in air. A crystal structure is proposed for this new material by combining the information from 3D electron diffraction and electron tomography of a single nanocrystal, X-ray powder diffraction, and density functional theory calculations. Such a structure is closely related to that of the recently discovered high-pressure chalcohalide Pb 4 S 3 I 2 phase, and indeed we were able to extend our synthesis scheme to Pb 4 S 3 I 2 colloidal nanocrystals, whose structure matches the one that has been published for the bulk. Finally, we could also prepare nanocrystals of Pb 3 S 2 Cl 2 , which proved to be a structural analogue of the recently reported bulk Pb 3 Se 2 Br 2 phase. It is remarkable that one high-pressure structure (for Pb 4 S 3 I 2 ) and two metastable structures that had not yet been reported (for Pb 4 S 3 Br 2 and Pb 3 S 2 Cl 2 ) can be prepared on the nanoscale by wet-chemical approaches. This highlights the important role of colloidal chemistry in the discovery of new materials and motivates further exploration into metal chalcohalide nanocrystals.