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Well-defined and facetted bimetallic gold–palladium nanoalloys have been synthesized and anchored in spherical polyelectrolyte brushes (SPB) as composite particles (AuPd@SPB). These particles are better catalysts in aqueous phase than the pure metals. The atomistic arrangement of these nanoalloys has been analysed by extended X-ray absorption fine structure (EXAFS) spectroscopy at the Au–L3 and the Pd–K absorption edge. The samples with high amounts of gold appear as almost statistically mixed random alloys. Alloy compositions with less gold show slight enrichment of Pd at the surface of the particle. In addition, signals of non-metallic palladium appear at the Pd–K edge which indicate the presence of the Pd2+ species in addition to metallic palladium. The relation of these structural features to the catalytic activity is discussed.
Measuring in a non-destructive way the characteristic trace elements of the metal allows following the circulation of gold in the past. The aim of this work is to probe the possibilities of X-ray fluorescence with high energy synchrotron radiation (SR-XRF) at the BAMline at BESSY II to determine the concentration of Pt in ancient gold alloys. A HP-Ge detector was used to measure the Pt K-lines excited with an incident energy of 79.5 keV. Data processing was done by subtraction of a Pt free gold standard spectrum from the spectrum of the sample. Depending on the sample composition, the MDL ranges between 40 and 90 ppm. The first results obtained for a small set of gold alloys of different thickness, size and composition showed that high energy SR-XRF is a significant method for the non-destructive determination of Pt in gold.
Synchrotron radiation induced X-ray fluorescence for the characterization of ancient gold objects
(2009)
Fingerprinting ancient gold work requires the use of nondestructive techniques with high spatial resolution (down to 25 µm) and good detection limits (micrograms per gram level). In this work experimental setups and protocols for synchrotron radiation induced X-ray fluorescence (SRXRF) at the BAMline of the Berlin electron storage ring company for synchrotron radiation (BESSY) in Berlin for the measurement of characteristic trace elements of gold are compared considering the difficulties, shown in previous works, connected to the quantification of Pt. The best experimental conditions and calculation methods were achieved by using an excitation energy of 11.58 keV, a silicon drift chamber detector (SDD) detector, and pure element reference standards. A detection limit of 3 µg/g has been reached. This newly developed method was successfully applied to provenancing the Xiongnu gold from the Gol Mod necropolis, excavated under the aegis of the United Nations Educational, Scientific and Cultural Organization (UNESCO). The composition of the base alloys and the presence of Pt and Sn showed that, contrary to what is expected, the gold foils from the first powerful empire of the steppes along the Great Wall were produced with alluvial gold from local placer deposits located in Zaamar, Boroo, and in the Selenga River.
The structure of nanoparticles typically differs
from its bulk counterpart. Predominantly, the structures of
gold nanoparticles have been under exceedingly intense
discussion since the discovery of their high catalytic
activity. We found an increasing bond length contraction
with decreasing particle size for citrate-stabilized gold
nanoparticles in aqueous solution as determined by in situ
extended X-ray absorption fine structure (EXAFS) spectroscopy.
Particle sizes and size distributions were determined
by small-angle X-ray scattering. The analysis of the
obtained EXAFS spectra employing ab initio calculations
reveals that the Au–Au bond length undergoes a contraction
of 2 pm for nanoparticles with a radius of 2.9 nm. NIST
reference material RM 8011 gold nanoparticles with a
radius of 4.4 nm exhibit a smaller contraction of approximately
1 pm. Finally, gold atoms in RM 8013 particles
with a radius of 25.7 nm show distances of 288 pm—
identical to the distance in gold foil—and exhibits bulk-like
properties. The observed bond length contraction of gold
nanoparticles in solution is significantly smaller than
previously reported for gold nanoparticle deposited on
surfaces, which is up to 15 pm. This indicates that the
bond length contraction effect of 'free' and 'surfaceimmobilized'
nanoparticles differ fundamentally. Such
difference could be essential for the understanding of
nanoparticle-supported catalysis.