Nanocluster

Lover T ef a/1997 Functionalization and capping of a CdS nanocluster a study of ligand exchange by electrospray mass spectrometry Chem. Mater. 9 1878... 

Wilcoxon J P and Craft S A 1997 Liquid chromatographic analysis and characterization of inorganic nanoclusters Nanostruct. Mater. 9 85... 

Chemseddine A, Jungblut H and Boulmaz S 1996 Investigation of the nanocluster self-assembly process by scanning tunneling microscopy J. Phys. Chem. 100 12 546... 

Leung K, Pokrant S and Whaley K B 1998 Exciton fine structure in CdSe nanoclusters Phys. Rev. B 57 12 291... 

Lewis L J, Jensen P and Barrat J L 1997 Melting, freezing and coalescence of gold nanoclusters Phys. Rev. B 56 2248... 

Nanoclusters/Polymer Composites. The principle for developing a new class of photoconductive materials, consisting of charge-transporting polymers such as PVK doped with semiconductor nanoclusters, sometimes called nanoparticles, Q-particles, or quantum dots, has been demonstrated (26,27). 

N,N-bis(4-methylphenyl)-N,iV-bis(4-ethylphenyl)-[l,l -(3,3 -dimethyl)biphenyl]-4,4 -diamine [115310-63-9] (ETPD) (8) -doped PMPS (Table 1, entry 22), hole mobihty approaching 10 cm /Vs at 2.5 x 10 V/cm was observed (48). This is the highest recorded hole mobihty for disordered organic systems. From this perceptive, it is very interesting to study the carrier mobihty of polymers heavily doped with semiconductor nanoclusters. 

The intrinsic charge-generation efficiency of polymers is often low and needs to be enhanced by the addition of sensitizers. The sensitizer can be dissolved in the polymer to enhance the bulk charge-generation efficiency of the polymer. Effective sensitizers include 2,4,7-trinitro-9- uorenone [129-79-3] (TNF), hiUerene, thiapyryhum dye, CdS nanoclusters, etc (Table 3). Molecular stmctures of selected sensitizers are shown in Figure 8. 

Volume 103 Semiconductor Nanoclusters - Physical, Chemical, and Catalytic Aspects edited by P.V. Kamat and D. Meisel... 

Another exception to the rule of contaminated surfaces involves very small particles, generally referred to as nanoclusters. These are generally formed and the adhesion of the.se particles to substrates studied in situ, under ultrahigh vacuum conditions. Owing to the vacuum and the short existence of these particles prior to deposition, it is possible for chemistry to occur. 

Au(m) nanoclusters with heights of up to nm form at-FlOO mV vs. AI/AICI3 (a) a typical height profile is shown in (b). Upon a potential step to -fITOO mV vs. AI/AICI3 the clusters dissolve immediately and leave holes in the surfaces as well as small Au islands (c) alloying between Al and Au is very likely. 

The surface consists of terraces of a height of 330 30 pm. Within error limits, this is the value that would be expected for Ge(lll) bilayers. Furthermore, we were able to observe that the electrodeposition gave rise to a less ordered surface structure with nanoclusters, transforming over a timescale of about 1 hour into a layered structure. With GeBr4 a transformation of clusters into such a layered surface was only partly seen with GeGl4 this transformation could not be observed. 

Ciebien J.F., Cohen R.E., and Duran A., Catal3ftic properties of palladium nanoclusters synthesized within diblock copolymer films Hydrogenation of ethylene and propylene, Supramol. Sci., 5, 31, 1998. 

Sohn B.H., Cohen R.E., and Papaefthymiou G.C., Magnetic properties of iron oxide nanoclusters within microdomains of block copolymers, J. Magn. Magn. Mater., 182, 216, 1998. 

Over the last few years, we have made a number of novel discoveries using reactive salt fluxes in the crystal growth experiment of mixed-metal oxides. The most important outcome that these salt-inclusion solids have demonstrated is the propensity for structure- directing effects of the employed salt. These hybrid solids have revealed fascinating solid-state structures ranging from nanoclusters to three-dimensional open frameworks of current interest. Solids featuring mag-... 

Dynamic light-scattering experiments or the analysis of some physicochemical properties have shown that finite amounts of formamide, A-methylformamide, AA-dimethyl-formamide, ethylene glycol, glycerol, acetonitrile, methanol, and 1,2 propanediol can be entrapped within the micellar core of AOT-reversed micelles [33-36], The encapsulation of formamide and A-methylformamide nanoclusters in AOT-reversed micelles involves a significant breakage of the H-bond network characterizing their structure in the pure state. Moreover, from solvation dynamics measurements it was deduced that the intramicellar formamide is nearly completely immobilized [34,35],... 

The term nanosized cluster or nanocluster or simply cluster is used presently to denote a particle of any kind of matter, the size of which is greater than that of a typical molecule, but is too small to exhibit characteristic bulk properties. Such particles enter the size regime of mesoscopic materials. 

Chen S, Truax LA, Sommers JM (2000) Alkanethiolate-protected PbS nanoclusters Synthesis, spectroscopic and electrochemical studies. Chem Mater 12 3864-3870... 

Parsapour F, Kelley DF, Williams RS (1998) Spectroscopy of Eu -doped PtS2 nanoclusters. J Phys Chem B 102 7971-7977... 

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