17549-30-3Relevant academic research and scientific papers
In situ synthesis of pbs nanocrystals in polymer thin films from lead(II) xanthate and dithiocarbamate complexes: Evidence for size and morphology control
Lewis, Edward A.,McNaughter, Paul D.,Yin, Zhongjie,Chen, Yiqiang,Brent, Jack R.,Saah, Selina A.,Raftery, James,Awudza, Johannes A. M.,Malik, M. Azad,Obrien, Paul,Haigh, Sarah J.
, p. 2127 - 2136 (2015)
Lead sulfide has been grown from single molecular precursors within a polymer matrix to form networks of PbS nanocrystals. These materials are model systems for the processing of polymer-nanoparticle layers for flexible hybrid photovoltaic devices. Processing is achieved by spin coating a solution containing the precursor and polymer onto a substrate, followed by heating of the film to decompose the precursor. The effect of precursor chemistry has been explored using lead(II) dithiocarbamates, their 1,10-phen adducts, and lead(II) xanthates with different alkyl chain lengths (butyl, hexyl, and octyl). The xanthates were found to be more promising precursors giving control over nanocrystal size and shape on variation of the alkyl chain length. The lead(II) octyl xanthate complex causes anisotropic growth, forming PbS nanowires within the polymer matrix.
The use of single-source precursors for the solution-liquid-solid growth of metal sulfide semiconductor nanowires
Sun, Jianwei,Buhro, William E.
, p. 3215 - 3218 (2008/12/23)
(Figure Presented) All wired up! High-quality colloidal PbS and CdS nanowires were grown from Bi nanoparticles by the solution-liquid-solid (SLS) mechanism. The single-source-precursor strategy could provide a general approach for the synthesis of colloidal semiconductor nanowires.
