Raman Spectroscopy of Nanomaterials: How Spectra Relate to Disorder, Particle Size and Mechanical Properties - Archive ouverte HAL
Article Dans Une Revue Progress in Crystal Growth and Characterization of Materials Année : 2007

Raman Spectroscopy of Nanomaterials: How Spectra Relate to Disorder, Particle Size and Mechanical Properties

Résumé

The purpose of this review is to provide non-specialists with a basic understanding of the information micro-Raman Spectroscopy (µRS) may yield when this characterization tool is applied to nanomaterials, a generic term for describing nano-sized crystals and bulk homogeneous materials with a structural disorder at the nanoscale - typically nanoceramics, nanocomposites, glassy materials and relaxor ferroelectrics. The selected materials include advanced and ancient ceramics, semiconductors and polymers developed in the form of dots, wires, films, fibres or composites for applications in the energy, electronic and aeronautics-aerospace industries. Following a short introduction, the text is divided into four sections: · The 1st section outlines the principles of conventional µRS. · The 2nd section introduces the main effects for nanomaterials, with special emphasis on two models that connect Raman spectra features to "grain size", namely the Phonon Confinement Model (PCM) and the Elastic Sphere Model (ESM). · The 3rd section presents the experimental versatility of µRS applied to nanomaterials (phase identification, phase transition monitoring, grain size determination, defect concentration assessment, etc.). · The 4th section deals with the micro-mechanical aspects of µRS ("Raman extensometry"). Special emphasis is placed on the relationship between the stress-related coefficients Se/s and the macroscopic response of the materials to the applied stress.
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Dates et versions

hal-00120432 , version 1 (14-12-2006)

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Gwenaël Gouadec, Philippe Colomban. Raman Spectroscopy of Nanomaterials: How Spectra Relate to Disorder, Particle Size and Mechanical Properties. Progress in Crystal Growth and Characterization of Materials, 2007, 53 (1), pp.1-56. ⟨10.1016/j.pcrysgrow.2007.01.001⟩. ⟨hal-00120432⟩
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