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InP nanocrystals

Banin U ef a/1997 Quantum confinement and ultrafast dephasing dynamics in InP nanocrystals Phys. Rev. B 55 7059... [Pg.2922]

Xu S, Kumar S, Nann T (2006) Rapid synthesis of high-quality InP nanocrystals. J Am Chem Soc 128 1054-1055... [Pg.38]

Langof, L. Ehrenfreund, E. Lifshitz, E. Continuous-Wave and Time-Resolved Optically Detected Magnetic Resonance Studies of Nonetched/Etched InP Nanocrystals. J. Phys. Chem. B 2002, 106, 1606-1612. [Pg.674]

Guzelian AA, Katari JEB, Kadavanich AV, Banin U, Hamad K, Juban E Alivisatos AP, Wolters RH, Arnold CC, Heath JR (1996) Synthesis of size selected, surface passivated InP nanocrystals. J Phys Chem B, 100 7212-7219... [Pg.471]

InP nanocrystals can be made by dehalosUylation of InCls and (Me3Si)3P with snbsequentthermolysis at 200 400 °C. Monodisperse and solnble InP nanocrystals are obtained by thermolysis reactions in trioctylphosphine oxide. InP nanoparticles can also be obtained by the decomposition of organometallic precnrsors. A novel ronte has been developed to prepare nanocrystalline InP by the reaction of InCls, P4, and KBH4 at temperatnres as low as 80 °C, which is the lowest temperatnre reported for InP nanocrystals. The synthesis of InP nanotnbes by laser ablation is also reported. ... [Pg.1686]

Fig. 7.5. TEM images of InP nanocrystals prepared by hydrothermal (a) and solvothermal (b) methods. Fig. 7.5. TEM images of InP nanocrystals prepared by hydrothermal (a) and solvothermal (b) methods.
Fig. 7.6. Absorption and photoluminescence (PL) spectra of as-prepared products, GaP nanoc stals (A) and InP nanocrystals (B). Fig. 7.6. Absorption and photoluminescence (PL) spectra of as-prepared products, GaP nanoc stals (A) and InP nanocrystals (B).
Langof L., Ehrenffennd E., Lifshitz E., Micic O. I. and Nozik A. J. (2002), Continnons-wave and time-resolved optically detected magnetic resonance studies of non-etched/etched InP nanocrystals , J. Phys. Chem. B 106, 1606-1612. [Pg.200]

Figure 15.25 (a) Size- and material-dependent emission spectra of several snrfactant-coated semiconductor nanocrystals (quantnm dots) in a variety of sizes. The blue series (right) represents different sizes of CdSe nanocrystals with diameters of 2.1, 2.4, 3.1, 3.6 and 4.6 nm (from right to left). The green series (centre) is of InP nanocrystals with diameters of 3.0, 3.5 and 4.6 nm. The red series (left) is of InAs nanocrystals with diameters of 2.8, 3.6, 4.6, and 6.0 nm. (b) A true-colour image of the fluorescence of a series of silica-coated core (CdSe)-shell (ZnS or CdS) nanocrystals (reproduced from [39] with permission from AAAS). See plate section for colour version of this image. [Pg.926]

Guzelian A A ef a/1996 Synthesis of size-selected surface passivated InP nanocrystals d, Phys. Chem. 100 7212... [Pg.2918]

Stractural and Basic Optical Characterization of InAs and InP Nanocrystals... [Pg.107]

Xie R, Battaglia D, Peng X (2007) Colloidal InP nanocrystals as efficient emitters covering blue to near-infrared. J Am Chem Soc 129 15432... [Pg.29]

Talapin DV, Gaponik N, Borchert H, Rogach AL, Haase M, Weller H (2002) Etching of colloidal InP nanocrystals with fluorides photochemical nature of the process resulting in high photoluminescence eflflciency. J Phys Chem C 106 12659... [Pg.30]

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See also in sourсe #XX -- [ Pg.105 , Pg.110 , Pg.317 ]



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Synthesis of InAs and InP Nanocrystals

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