Enrique Barrera scite author profile

Traditional single-fiber pull-out type experiments were conducted on individual multiwalled carbon nanotubes (MWNT) embedded in an epoxy matrix using a novel technique. Remarkably, the results are qualitatively consistent with the predictions of continuum fracture mechanics models. Unstable interface crack propagation occurred at short MWNT embedments, which essentially exhibited a linear load-displacement response prior to peak load. Deep embedments, however, enabled stable crack extension and produced a nonlinear load-displacement response prior to peak load. The maximum pull-out forces corresponding to a wide range of embedments were used to compute the nominal interfacial shear strength and the interfacial fracture energy of the pristine MWNT-epoxy interface.

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Formation Mechanisms and Characterization of Black and White Cobalt Electrodeposition onto Stainless Steel

Barrera¹,

Palomar-Pardavé

Batina

et al. 2000

J. Electrochem. Soc.

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Cobalt electrodeposition onto a stainless steel substrate from 1.17 M Co(II) aqueous solution containing 0.98MH2SO4 , 0.56 M KCl, and 0.2MH3BO3 was evaluated in the absence (i) and presence (ii) of 0.1MKNO3 . Cobalt electrodeposited from the electrolytic bath (i) was white‐gray colored, whereas deposition from bath (ii) formed a black‐colored surface. SEM‐WDX, AFM, and XRD analysis of the steel surfaces covered with these two deposits revealed distinct characteristics for black and white cobalt films. Although both deposits were composed of metallic cobalt, the white cobalt deposit was a smooth, 2D film while the black deposit consisted of many dispersed, nano‐sized clusters of 150 to 250 nm in diameter. Analysis of potentiostatic current transients (I-t curves) indicated that formation of white cobalt was carried out by multiple 3D nucleation limited by lattice incorporation of cobalt adatoms to the growth centers. Formation of black cobalt was shown to involve the simultaneous processes of 3D nucleus formation and growth, limited by mass transfer, and the reduction of nitrates in the medium onto the surfaces of these nuclei. It is shown that, beside this cobalt‐nitrate interaction, NO3− ions in solution can block active sites for cobalt reduction and the effect of this phenomenon strongly depends on the nitrate concentration. These facts could explain the observed dispersion of the black cobalt coating. © 2000 The Electrochemical Society. All rights reserved.

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A new cobalt oxide electrodeposit bath for solar absorbers

Barrera

González

Viveros

1998

Solar Energy Materials and Solar Cells

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Characterization of black and white chromium electrodeposition films: surface and optical properties

Aguilar

Barrera

Palomar-Pardavé³

et al. 2003

Journal of Non-Crystalline Solids

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Cobalt oxide films grown by a dipping sol-gel process

et al. 1999

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Enrique Barrera

Interface Toughness of Carbon Nanotube Reinforced Epoxy Composites

Formation Mechanisms and Characterization of Black and White Cobalt Electrodeposition onto Stainless Steel

A new cobalt oxide electrodeposit bath for solar absorbers

Characterization of black and white chromium electrodeposition films: surface and optical properties

Cobalt oxide films grown by a dipping sol-gel process

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