TY - JOUR
T1 - Self-organization of mono- and bi-modal PbS nanocrystal populations in superlattices
AU - Corricelli, Michela
AU - Altamura, Davide
AU - De Caro, Liberato
AU - Guagliardi, Antonella
AU - Falqui, Andrea
AU - Genovese, Alessandro
AU - Agostiano, Angela
AU - Giannini, Cinzia
AU - Striccoli, Marinella
AU - Curri, M. Lucia
PY - 2011/6/21
Y1 - 2011/6/21
N2 - Here the synthesis of distinct monomodal and bimodal PbS nanocrystal (NC) populations, with narrow size-distribution, is reported. The ability to achieve careful control of NC size and size distribution allowed the preparation, in one single synthetic step, of two distinct populations of PbS NCs, with tuneable size ratio. The NC growth was carefully studied in order to gain insight into the mechanism underlying the formation of the mono and bimodal PbS NC families. The synthesized PbS NCs were structurally and chemically characterized, and subsequently used as building blocks for fabricating solid crystal assemblies by solvent evaporation. In particular the role played by different parameters, namely NC size and concentration, dispersing solvent and substrate, on crystallinity, geometry and structure of the obtained solids was systematically investigated. Interestingly the assembly of bimodal PbS NC samples leads to the formation of diverse superlattice structures, with a final geometry dependent on the NC size and the size ratio in the bimodal population. The synthetic procedure was then ultimately responsible of the superlattice structures, through the control of the PbS NC size and size ratio in the bimodal population.
AB - Here the synthesis of distinct monomodal and bimodal PbS nanocrystal (NC) populations, with narrow size-distribution, is reported. The ability to achieve careful control of NC size and size distribution allowed the preparation, in one single synthetic step, of two distinct populations of PbS NCs, with tuneable size ratio. The NC growth was carefully studied in order to gain insight into the mechanism underlying the formation of the mono and bimodal PbS NC families. The synthesized PbS NCs were structurally and chemically characterized, and subsequently used as building blocks for fabricating solid crystal assemblies by solvent evaporation. In particular the role played by different parameters, namely NC size and concentration, dispersing solvent and substrate, on crystallinity, geometry and structure of the obtained solids was systematically investigated. Interestingly the assembly of bimodal PbS NC samples leads to the formation of diverse superlattice structures, with a final geometry dependent on the NC size and the size ratio in the bimodal population. The synthetic procedure was then ultimately responsible of the superlattice structures, through the control of the PbS NC size and size ratio in the bimodal population.
UR - http://www.scopus.com/inward/record.url?scp=79957995787&partnerID=8YFLogxK
U2 - 10.1039/c0ce00874e
DO - 10.1039/c0ce00874e
M3 - Article
AN - SCOPUS:79957995787
SN - 1466-8033
VL - 13
SP - 3988
EP - 3997
JO - CRYSTENGCOMM
JF - CRYSTENGCOMM
IS - 12
ER -