Real-time plasmon spectroscopy study of the solid-state oxidation and Kirkendall void formation in copper nanoparticles.

@article{Susman2017RealtimePS,
  title={Real-time plasmon spectroscopy study of the solid-state oxidation and Kirkendall void formation in copper nanoparticles.},
  author={Mariano D. Susman and Yishai A. Feldman and Tatyana Bendikov and Alexander Vaskevich and Israel Rubinstein},
  journal={Nanoscale},
  year={2017},
  volume={9 34},
  pages={
          12573-12589
        }
}
Oxidation and corrosion reactions have a major effect on the application of non-noble metals. Kinetic information and simple theoretical models are often insufficient for describing such processes in metals at the nanoscale, particularly in cases involving formation of internal voids (nano Kirkendall effect, NKE) during oxidation. Here we study the kinetics of solid-state oxidation of chemically-grown copper nanoparticles (NPs) by in situ localized surface plasmon resonance (LSPR) spectroscopy… 
View on PubMed
rsc.org
21 Citations

21 Citations

Citation Type

Citation Type

Heterodimers for in Situ Plasmonic Spectroscopy: Cu Nanoparticle Oxidation Kinetics, Kirkendall Effect, and Compensation in the Arrhenius Parameters
The ability to study oxidation, reduction, and other chemical transformations of nanoparticles in real time and under realistic conditions is a nontrivial task due to their small dimensions and the
Resolving single Cu nanoparticle oxidation and Kirkendall void formation with in situ plasmonic nanospectroscopy and electrodynamic simulations.
TLDR
The analysis of their optical response combined with post mortem electron microscopy imaging and detailed Finite-Difference Time-Domain electrodynamics simulations enables in situ identification of the oxidation mechanism both in the initial oxide shell growth phase and during Kirkendall void formation.
In situ STEM study on the morphological evolution of copper-based nanoparticles during high-temperature redox reactions.
TLDR
In a broader perspective, this study offers insights into the mobility of the copper phase during its oxidation-reduction process in terms of microstructural evolution as a function of nanoparticle size, reaction gas, and temperature.
iii Single Copper Nanoparticle Oxidation Studied by Correlative Optical and Electron Microscopy
Cu nanoparticles are commonly used in microelectronic devices and as catalysts in, for example, methanol synthesis and methanol steam reforming reactions. However, Cu nanoparticles are prone to
Single Copper Nanoparticle Oxidation
Cu nanoparticles are commonly used in microelectronic devices and as catalysts in, for example, methanol synthesis and methanol steam reforming reactions. However, Cu nanoparticles are prone to
The Effect of Nanosizing on the Oxidation of Partially Oxidized Copper Nanoparticles
TLDR
The results confirm an easier oxidation process of Cu-nano than Cu-micro particles, which must be attributed to kinetic not thermodynamic aspects of oxidation reactions.
Mild synthesis of single-nanosized plasmonic copper nanoparticles and their catalytic reduction of methylene blue
Copper catalysis at operando conditions—bridging the gap between single nanoparticle probing and catalyst-bed-averaging
TLDR
How highly local spatial variations in catalyst state dynamics are responsible for contradicting information about catalyst active phase found in the literature is revealed, and it is identified that both surface and bulk oxidation state of a Cu nanoparticle catalyst dynamically mediate its activity.
Structural and electron-optical properties of transparent nanocrystalline MgAl2O4 spinel implanted with copper ions
Kinetic model of oxidation of metal nanoparticles: Cabrera-Mott and Kirkendall effects
...
1
2
3
...

References

SHOWING 1-10 OF 93 REFERENCES
Nanoscale Kirkendall Effect and Oxidation Kinetics in Copper Nanocrystals Characterized by Real-Time, In Situ Optical Spectroscopy
The low-temperature oxidation of ≈10 nm diameter copper nanocrystals is characterized using in situ UV–vis absorbance spectroscopy and observed to lead to hollow copper oxide shells. The kinetics of
A General Kinetic-Optical Model for Solid-State Reactions Involving the Nano Kirkendall Effect. The Case of Copper Nanoparticle Oxidation
Oxidation of copper nanoparticles (NPs) and other solid-state reactions have been shown recently to involve the nanoscale Kirkendall effect (NKE). The process, resulting in the formation of internal
Cu Model Catalyst Dynamics and CO Oxidation Kinetics Studied by Simultaneous in Situ UV–Vis and Mass Spectroscopy
The oxidation state of Cu nanoparticles during CO oxidation in CO + O2 gas mixtures was sensitively monitored via localized surface plasmon resonances. A microreactor, equipped with in situ UV–vis
Solvent-Dependent Surface Plasmon Response and Oxidation of Copper Nanocrystals
We report the synthesis of monodisperse colloidal copper nanocrystals and subsequent solvent-dependent oxidation to form copper(I) oxide nanoparticles. The oxidation process was monitored by optical
In Situ Single-Nanoparticle Spectroscopy Study of Bimetallic Nanostructure Formation.
TLDR
In�situ single nanoparticle (NP) optical scattering spectroscopy is used to capture the dynamic structural evolution of a bimetallic NS formed in a GE reaction between Ag and [PtCl6 ](2-) .
Surface Plasmon Spectroscopy of Nanosized Metal Particles
The use of optical measurements to monitor electrochemical changes on the surface of nanosized metal particles is discussed within the Drude model. The absorption spectrum of a metal sol in water is
Chemical Deposition and Stabilization of Plasmonic Copper Nanoparticle Films on Transparent Substrates
Preparation of supported copper nanostructures has been scarce, compared to the more noble metals Ag and Au, mainly due to the lower stability of Cu toward corrosion in aqueous solutions and
Controlling the Formation of Nanocavities in Kirkendall Nanoobjects through Sequential Thermal Ex Situ Oxidation and In Situ Reduction Reactions.
TLDR
The strategy demonstrated in this study opens new avenues for the engineering of hollow nanostructures with potential applications in gas sensing, catalysis, and energy storage.
Role of stress in the self-limiting oxidation of copper nanoparticles.
TLDR
The drastic slowing at 298 K and the big differences between the two close temperatures in the oxidation kinetics were found to be directly correlated to whether the compressive stress in the Cu(2)O(111) layers that commensurately formed on the Cu (111) surface is relaxed or not.
Effects of surface oxidation on the linear optical properties of Cu nanoparticles
Applications of copper nanoparticles (NPs) are restricted due to their proneness to oxidation by ambient oxygen if not properly protected. Here we discuss the optical properties and application
...
1
2
3
4
5
...