Sulfidation Processes of PVP-Coated Silver Nanoparticles...
Transcript of Sulfidation Processes of PVP-Coated Silver Nanoparticles...
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Sulfidation Processes of PVP-Coated Silver
Nanoparticles in Aqueous
Solution: Impact on Dissolution Rate
Environmental Science and Technology . 2011, 45, 5260–5266
Introduction to synchrotron radiation, May 5th,2015
Prof. Segre
Presenter: Elahe Moazzen
Illinois Institute of Technology, chemistry
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outline
Introduction
Experimental
Characterization and results
conclusions
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Introduction
• Why tracking Ag nanoparticles (Ag-NPs).
• Environmental concerns; possible reactions, products and their toxicity.
• Toxicity factors: dissolved Ag-NPs (Ag+).
• The most common Ag corrosion product, silver sulfide (Ag2S).
• Bulk or nanoparticle
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Present work:
• sulfidation of Ag-NPs with aqueous Na2S and their effect on surface
properties, aggregation state, surface charge, and dissolution rates
(toxicity factors) in different Na2S to Ag-NPs ratio (S/Ag).
List of techniques used:
• synchrotron based X-ray Diffraction (XRD) and Extended X-ray
Absorption Fine Structure spectroscopy (EXAFS)
• Transmission Electronic Microscopy (TEM) and Scanning Electron
Microscopy (SEM)
• X-ray Photoelectron Spectroscopy (XPS)
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Experimental, synthesis of Ag-NPs.
PolyVinylPyrrolidone (PVP) in
ethylene glycol
+
AgNO3 in DI water @
140˚C
2 hr stirring
at 140 ˚C
Centrifugation and
washing with
acetone and water
Kim, D.; Jeong, S.; Moon, J. Synthesis of silver nanoparticles using the polyol process and the influence of precursor injection.
Nanotechnology 2006, 17, 4019–4024.
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Experimental, Sulfidation of Ag-NPs.
10-3 M Na2S solution in a 0.01 M NaNO3
electrolyte (fixed)
+
varying concentrations of
Ag-NPs solutions (pH=7)
24 hr stirring
@ RT Washed (DI water)
and centrifuged
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Characterization and results:
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Characterization of the initially Synthesized Ag-NPs,
SEM, XRD
SEM analysis:
•Quasi-spherical
•Average particle size 39±9 nm
XRD:
•Ag-NPs crystallize in fcc structure (matching that
of metallic bulk silver: ICSD-64706)
•No other crystalline phases
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Loss of the Organic Capping Agent (PVP) during Sulfidation
•The total carbon weight
% of carbon in initial Ag
NPs: 1.4%
•Use of XPS to
investigate the presence
of PVP amount on the
surface before and after
sulfidation and with
different S/Ag ratios
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Characterization of the product of sulfidation,
synchrotron-based XRD and EXAFS
XRD:
sensitive to the presence
of crystalline phases.
New phase: stable form
of silver sulfide called
acanthite (monoclinic)
New phase formation
increases with S/Ag
Crystalline size: 15.9 nm,
polycrystalline
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Rietveld analysis:
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Characterization of the product of sulfidation,
synchrotron-based XRD and EXAFS
EXAFS spectroscopy:
collected at the Ag K-edge
sensitive to all Ag-bearing phases and is independent of
their degree of crystallinity
Linear combination fitting (LCF)
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Combination of XRD and EXAFS methods
Fractions of crystalline and amorphous:
yAgº = 0 , all of the metallic silver is crystalline
• xAgº /xAg2S= a , from rietveld analysis
• xAgº +yAgº= b , from LCF
• yAg2S +yAg2S=1-b
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Percentages of Agº and crystalline/amorphous Ag2S as a
function of S/Ag ratio
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TEM images
S/Ag = 0.055 S/Ag = 0.019
S/Ag = 0.540 S/Ag = 0.308 S/Ag = 1.079
Initial Ag-NPs
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Higher resolution TEM image
S/Ag = 0.055
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Dissolution rate measurements of Ag-NPs before and after
reaction with increasing S/Ag ratio
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Zeta potential and surface charge measurements
for Ag-NPs and sulfidized samples in different pHs
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Conclusions
Presence of PVP coated on the nanoparticles does not prevent
sulfidation.
By sulfidation some of PVP capping agent desorb from the surface
and cause aggregation and decrease in toxicity.
Silver sulfide formed as product of the sulfidation, contains both
amorphous and crystalline regions, with growing the crystalline
part with increasing the ratio.
The acanthite phase is formed as nanobridges between the
nanoparticles and grow to complete conversion.
Decrease in Ag+ released from sulfidized samples as a result of low
Ksp of silver sulfide lead to much lower toxicity of the
nanoparticles.
So the more the concentration of the sulfide, the more silver
sulfide is formed which leads to less toxicity.
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Thank you for paying attention