Small metallic particles studied by optical and electron-optical spectroscopy

Seiler, H.; Haas, U.; Ocker, B.; Körtje, Karl‐Heinz

doi:10.1039/fd9919200121

Cited by 5 publications

(4 citation statements)

References 16 publications

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“…Photoacoustic Spectroscopy (PAS) Studies. In our previous work, the PAS method was used to study semiconductor nanoparticles, in order to measure their electronic properties (e.g., band gap). − As far as we know, there are only a few published studies where PAS was used to measure surface plasmon resonance (SPR), − and none of these papers described SPR measurements of small nanoparticles of the size described in this report. PAS may be very useful for the study of such particles, because in the case of analogous semiconductors, nanoparticle PAS was a superior technique, relative to other optical methods such as diffuse reflectance and absorption spectroscopy. , …”

Section: Resultsmentioning

confidence: 99%

“…27,28 The electronic properties of the products were studied by measurement of the optical absorption spectra (interband transitions) using photoacoustic spectroscopy (see Figure 7a,b). From previous studies using UV-vis absorption, it is known that the height and position of the peaks depend on various parameters: (1) the amount of Ag (affects the height of the peak); 8 (2) particle size (increased diameter causes a red shift); 29 (3) packing density of the particles (increased packing density causes a red shift); 24 and (4) oxidation level of the particles (increased oxidation level causes a blue shift). 30 The PAS spectrum of sample 2h shows two peaks (see Figure 7a), at 429 and 460 nm.…”

Section: Energy-dispersive X-ray Analysis (Edax)mentioning

confidence: 99%

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Sonochemical Deposition of Silver Nanoparticles on Silica Spheres

et al. 2002

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Silver nanoparticles with an average size of ∼5 nm were deposited on the surface of preformed silica submicrospheres with the aid of power ultrasound. Ultrasound irradiation of a slurry of silica submicrospheres, silver nitrate, and ammonia in an aqueous medium for 90 min under an atmosphere of argon to hydrogen (95:5) yielded a silver−silica nanocomposite. By controlling the atmospheric and reaction conditions, we could achieve the deposition of metallic silver on the surface of the silica spheres. The resulting silver-deposited silica submicrosphere samples were characterized with X-ray diffraction, transmission electron microscopy, differential scanning calorimetry, energy-dispersive X-ray analysis, high-resolution transmission electron microscopy, high-resolution scanning electron microscopy, photoacoustic spectroscopy, and Fourier transform infrared, UV−visible, and X-ray photoelectron spectroscopy.

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Section: Resultsmentioning

confidence: 99%

Section: Energy-dispersive X-ray Analysis (Edax)mentioning

confidence: 99%

Sonochemical Deposition of Silver Nanoparticles on Silica Spheres

et al. 2002

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“…Unfortunately, the spectrum was governed in the low-loss region by the carbon plasmon contribution from the support. A shift of the plasmon peak at 21.5 eV to lower energy-losses compared with the value 25 eV for pure carbon film probably was due to the contribution of surface plasmons excited in the aggregated particles and in the PVA layer [5]. Fig.…”

Section: Ag Colloidsmentioning

confidence: 99%

“…Volume and surface plasmon excitations, in particular, are determined both by properties of the individual particles and by collective effects due to interaction among the particles densely packed in aggregates. To understand how fractal geometry affects electronic properties of aggregated matter, electron-optical and optical methods can be applied [3,5].…”

Section: Introductionmentioning

confidence: 99%

Study of Quasi-Fractal Many-Particle-Systems and Percolation Networks by Zero-Loss Spectroscopic Imaging, Electron Energy-Loss Spectroscopy and Digital Image Analysis

Oleshko

Kindratenko

Gijbels

et al. 1996

Microbeam and Nanobeam Analysis

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Abstract. Submicron colloidal Ag particles and nano-sized filaments forming a statistical percolation network during "in situ" development of double structure tabular microcrystals of AgBr(I) emulsions have been studied by electron energy-loss spectroscopy and zero-loss electron spectroscopic imaging (EELS/ ZLESI). Image analysis has shown that random quasi-fractal clusters were formed in the colloid. ZLESI has been applied to characterise the morphology and defect structure of aggregated particles and filaments. Their energy-loss spectra revealed plasmon excitations and interband 4d electron transitions between 4-32 eV energy-loss. To study the cluster structure and its relation to the physical properties, fractal analysis including estimations of cluster fractal dimensions and of density autocorrelation functions has been performed. Mechanisms of fractal aggregation based on known models of diffusion limited aggregation, cluster-cluster aggregation and percolation are discussed.

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EELS plasmon studies of silver/carbon core/shell nanocables prepared by simple arc discharge

Wang

Buchholz

et al. 2007

Appl. Phys. A

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Small metallic particles studied by optical and electron-optical spectroscopy

Cited by 5 publications

References 16 publications

Sonochemical Deposition of Silver Nanoparticles on Silica Spheres

Sonochemical Deposition of Silver Nanoparticles on Silica Spheres

Study of Quasi-Fractal Many-Particle-Systems and Percolation Networks by Zero-Loss Spectroscopic Imaging, Electron Energy-Loss Spectroscopy and Digital Image Analysis

EELS plasmon studies of silver/carbon core/shell nanocables prepared by simple arc discharge

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