Mechanical and Structural Properties of BaCrO4 Nanorod Films under Confinement and Shear

Using an X‐ray surface forces apparatus (X‐SFA) we have investigated the effects of normal load (stress) and shear on the ordering and tribological properties of 10 nm × 30 nm surfactant‐coated BaCrO4 nanorods in isooctane, confined within submicrometer films. The film structure and corresponding fr...

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Veröffentlicht in:	Advanced functional materials 2004-03, Vol.14 (3), p.238-242
Hauptverfasser:	Gourdon, D., Yasa, M., Godfrey Alig, A. R., Li, Y., Safinya, C. R., Israelachvili, J. N.
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Sprache:	eng
Schlagworte:	mechanical metal oxide Nanorods Nanorods, metal oxide Ordering Properties Properties, mechanical Stress
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container_title	Advanced functional materials
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creator	Gourdon, D. Yasa, M. Godfrey Alig, A. R. Li, Y. Safinya, C. R. Israelachvili, J. N.
description	Using an X‐ray surface forces apparatus (X‐SFA) we have investigated the effects of normal load (stress) and shear on the ordering and tribological properties of 10 nm × 30 nm surfactant‐coated BaCrO4 nanorods in isooctane, confined within submicrometer films. The film structure and corresponding friction forces were monitored as a function of time and shearing distance at different gap sizes and loads. The X‐ray diffraction patterns indicate a cubic phase of nanorods coexisting with a surfactant phase that depends on the load, film thickness, shear rate, and shearing time. Atomic force microscopy and birefringence measurements performed on each surface after a shearing experiment showed ordered domains of nanorods over length scales of several tens of micrometers. The effects of normal load (stress) and shear on the ordering and tribological properties of surfactant‐coated BaCrO4 nanorods confined within submicrometer films have been investigated. X‐ray diffraction patterns indicate a cubic phase of nanorods coexisting with a surfactant phase (see Figure) whose relative amounts depend on the load, the film thickness, shear rate, and the shearing parameters.
doi_str_mv	10.1002/adfm.200305078
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R. ; Li, Y. ; Safinya, C. R. ; Israelachvili, J. N.</creator><creatorcontrib>Gourdon, D. ; Yasa, M. ; Godfrey Alig, A. R. ; Li, Y. ; Safinya, C. R. ; Israelachvili, J. N.</creatorcontrib><description>Using an X‐ray surface forces apparatus (X‐SFA) we have investigated the effects of normal load (stress) and shear on the ordering and tribological properties of 10 nm × 30 nm surfactant‐coated BaCrO4 nanorods in isooctane, confined within submicrometer films. The film structure and corresponding friction forces were monitored as a function of time and shearing distance at different gap sizes and loads. The X‐ray diffraction patterns indicate a cubic phase of nanorods coexisting with a surfactant phase that depends on the load, film thickness, shear rate, and shearing time. Atomic force microscopy and birefringence measurements performed on each surface after a shearing experiment showed ordered domains of nanorods over length scales of several tens of micrometers. The effects of normal load (stress) and shear on the ordering and tribological properties of surfactant‐coated BaCrO4 nanorods confined within submicrometer films have been investigated. X‐ray diffraction patterns indicate a cubic phase of nanorods coexisting with a surfactant phase (see Figure) whose relative amounts depend on the load, the film thickness, shear rate, and the shearing parameters.</description><identifier>ISSN: 1616-301X</identifier><identifier>EISSN: 1616-3028</identifier><identifier>DOI: 10.1002/adfm.200305078</identifier><language>eng</language><publisher>Weinheim: WILEY-VCH Verlag</publisher><subject>mechanical ; metal oxide ; Nanorods ; Nanorods, metal oxide ; Ordering ; Properties ; Properties, mechanical ; Stress</subject><ispartof>Advanced functional materials, 2004-03, Vol.14 (3), p.238-242</ispartof><rights>Copyright © 2004 WILEY‐VCH Verlag GmbH & Co. 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Mater</addtitle><description>Using an X‐ray surface forces apparatus (X‐SFA) we have investigated the effects of normal load (stress) and shear on the ordering and tribological properties of 10 nm × 30 nm surfactant‐coated BaCrO4 nanorods in isooctane, confined within submicrometer films. The film structure and corresponding friction forces were monitored as a function of time and shearing distance at different gap sizes and loads. The X‐ray diffraction patterns indicate a cubic phase of nanorods coexisting with a surfactant phase that depends on the load, film thickness, shear rate, and shearing time. Atomic force microscopy and birefringence measurements performed on each surface after a shearing experiment showed ordered domains of nanorods over length scales of several tens of micrometers. The effects of normal load (stress) and shear on the ordering and tribological properties of surfactant‐coated BaCrO4 nanorods confined within submicrometer films have been investigated. 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subjects	mechanical metal oxide Nanorods Nanorods, metal oxide Ordering Properties Properties, mechanical Stress
title	Mechanical and Structural Properties of BaCrO4 Nanorod Films under Confinement and Shear
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