Adsorption at a Carbon Black Microparticle Surface in Aqueous Colloids Probed by Optical Second-Harmonic Generation

Wang, Hong‐fei; Troxler, Thomas; Yeh, ‡ and An-Gong; Dai, § Hai-lung

doi:10.1021/jp066873i

Cited by 41 publications

(33 citation statements)

References 42 publications

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“…Graphite surface energy measurements can be used to gain insight into the surface energy characteristics of carbon, but it may not be representative of the more commonly used CPA material (Carbon Black) due to its significantly larger size ($10 lm). Previous studies [32][33][34] measuring Carbon Black surface energy show a similar low polar component when compared to graphite, but the dispersive component is typically measured at smaller values in the range of 18-35 mN m À1 . An increase in the Carbon Black polar surface energy component can be achieved through surface modification by way of acid-base treatments as detailed by Park et al [35] where the treatments can be used to obtain a polar surface energy component up to 33.1 mN m À1 [36].…”

Section: -4 / Vol 5 December 2017mentioning

confidence: 83%

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Simulation of Micro/Nanopowder Mixing Characteristics for Dry Spray Additive Manufacturing of Li-Ion Battery Electrodes

Ludwig

Liu²,

Liu³

et al. 2017

Journal of Micro and Nano-Manufacturing

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A new dry spraying additive manufacturing method for Li-ion batteries has been developed to replace the conventional slurry-casting technique for manufacturing Li-ion battery electrodes. A dry spray manufacturing process can allow for the elimination of the time- and energy-intensive slurry drying process needed due to the use solvents to make the electrodes. Previous studies into the new manufacturing method have shown successful fabrication of electrodes which have strong electrochemical and mechanical performance. Li-ion battery electrodes typically consist of three basic materials: active material (AM), binder particle additives (BPA), and conductive particle additives (CPA). In this paper, a discrete element method (DEM) simulation was developed and used to study the mixing characteristics of dry electrode powder materials. Due to the size of the particles being in the submicron to micron size range, the mixing characteristics are heavily dependent on van der Waals adhesive forces between the particles. Therefore, the effect the Li-ion battery electrode material surface energy has on the mixing characteristics was studied. Contour plots based on the DEM simulation results where the surface energy components of selected material types are changed were used to predict the mixing characteristics of different particle systems. For the cases studied, it is found that experimental mixing results are representative of the results of the DEM simulations.

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Section: -4 / Vol 5 December 2017mentioning

confidence: 83%

“…The dots located on the DEM simulation contour plots (Figs. 4(d) and 4(f)) denote previously measured [21,[31][32][33][34][35][36] surface energy values of carbon materials. They are used to show the expected mixing behavior of common carbon-based CPA materials.…”

Section: -4 / Vol 5 December 2017mentioning

confidence: 99%

Simulation of Micro/Nanopowder Mixing Characteristics for Dry Spray Additive Manufacturing of Li-Ion Battery Electrodes

Ludwig

Liu²,

Liu³

et al. 2017

Journal of Micro and Nano-Manufacturing

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“…The SHG electric field E SHG is proportional to the population of MG on the nanoparticle surface multiplied by the concentration of nanoparticles, N. In Figure 4, E SHG is normalized to its maximum value found at the isotherm's plateau. E SHG of the nanoparticle sample with no MG added is negligible compared to E SHG at the isotherm's plateau, so possible phase-sensitive interferences [38] are neglected. In the Langmuir model, a key assumption is that the bulk concentration of the solute is not reduced by the solute adsorption to the interface.…”

Section: Resultsmentioning

confidence: 99%

“…Previous SHG studies on the free adsorption of the triphenyl methane dye, malachite green (MG), to the surface of colloidal polystyrene microparticles has allowed the free energy of adsorption as well as the maximum number of adsorbate sites to be determined [29,30]. This SHG research has since been extended to study the adsorption of molecules to a variety of types and sizes of colloidal polymer microparticles and nanoparticles [31][32][33][34][35], clay [36], TiO 2 [37], and carbon black [38] nanoparticles, oil droplets in water [30], as well as phospholipid liposomes bilayer membranes [39,40]. Related work using SHG to measure the surface electrostatic potential [41] and the surface acidity pK a [42] of nanoparticles has also been achieved.…”

Section: Introductionmentioning

confidence: 99%

Probing the colloidal gold nanoparticle/aqueous interface with second harmonic generation

Haber

Kwok

Semeraro

et al. 2011

Chemical Physics Letters

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“…9 Within the past 13 years, a rapidly growing number of publications reported on second-order nonlinear light scattering ͑NLS͒ from small particles to probe their surfaces. Second-harmonic scattering ͑SHS͒ was used to probe ͑elec-tronic͒ transitions on particle surfaces in condensed media [9][10][11][12][13][14][15][16][17][18][19] as well as liposomes in solution. 20 Vibrational sum-frequency scattering ͑SFS͒ was performed to measure the molecular interface structure and its solvent dependence on colloids in solution, [21][22][23] as well as inclusions in biodegradable polymer microspheres.…”

Section: Introductionmentioning

confidence: 99%

Nonlinear light scattering from clusters and single particles

Dadap

Aguiar²,

Roke³

2009

The Journal of Chemical Physics

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We present sum-frequency-scattering experiments on colloidal dispersions with various concentrations and in different scattering geometries. At small scattering angles, large fluctuations are observed in the intensity of the scattered sum-frequency photons. By considering the angular dependence of the signal, the particle concentration dependence, and the surface vibrational spectra of the particle, we have determined that the fluctuations are caused by scattering from clusters of particles. We further demonstrate that dynamic nonlinear light scattering may be used to measure the size of the correlated particle clusters.

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Adsorption at a Carbon Black Microparticle Surface in Aqueous Colloids Probed by Optical Second-Harmonic Generation

Cited by 41 publications

References 42 publications

Simulation of Micro/Nanopowder Mixing Characteristics for Dry Spray Additive Manufacturing of Li-Ion Battery Electrodes

Simulation of Micro/Nanopowder Mixing Characteristics for Dry Spray Additive Manufacturing of Li-Ion Battery Electrodes

Probing the colloidal gold nanoparticle/aqueous interface with second harmonic generation

Nonlinear light scattering from clusters and single particles

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