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Size‐Controlled Synthesis of Cu 2‐ x E (E = S, Se) Nanocrystals with Strong Tunable Near‐Infrared Localized Surface Plasmon Resonance and High Conductivity in Thin Films

2012; Wiley; Volume: 23; Issue: 10 Linguagem: Inglês

10.1002/adfm.201202061

1616-3028

Xin Liu, Xianliang Wang, Bin Zhou, Wing‐Cheung Law, Alexander N. Cartwright, Mark T. Swihart,

Copper-based nanomaterials and applications

Abstract A facile method for preparing highly self‐doped Cu 2‐ x E (E = S, Se) nanocrystals (NCs) with controlled size in the range of 2.8–13.5 nm and 7.2–16.5 nm, for Cu 2‐ x S and Cu 2‐ x Se, respectively, is demonstrated. Strong near‐infrared localized surface plasmon resonance absorption is observed in the NCs, indicating that the as‐prepared particles are heavily p‐doped. The NIR plasmonic absorption is tuned by varying the amount of oleic acid used in synthesis. This effect is attributed to a reduction in the number of free carriers through surface interaction of the deprotonated carboxyl functional group of oleic acid with the NCs. This approach provides a new pathway to control both the size and the cationic deficiency of Cu 2‐ x Se and Cu 2‐ x S NCs. The high electrical conductivity exhibited by these NPs in metal‐semiconductor‐metal thin film devices shows promise for applications in printable field‐effect transistors and microelectronic devices.