New findings on the structure of natural and synthetic aluminosilicates nanoparticles

Levard Clément, Rose Jérôme, Masion Armand, Doelsch Emmanuel, Basile-Doelsch Isabelle, Borschneck Daniel, Bottero Jean Yves. 2008. New findings on the structure of natural and synthetic aluminosilicates nanoparticles. In : Aluminium and silicon in soils and the environment (Alusiv) conference, Aberdeen, United Kingdom, 3-5 Sep 2008. Clay Minerals Group ; British Society of Soil Science. s.l. : s.n., Résumé, 1 p. Conference on Aluminium and silicon in soils and the environment, Aberdeen, Royaume-Uni, 3 Septembre 2008/5 Septembre 2008.

Résumé : Abundance within andosols of highly reactive aluminosilicate nanoparticles makes of these an important factor affecting soil dynamics (carbon sequestration1, trapping pollutants2 ...). Gaining knowledge of the structural characteristics of such nanoparticles is of fundamental importance to understand their interactions with the different soil compartments. Aluminosilicate nanoparticles can adopt two main structures. Imogolites (Al2SiO3(OH)4), natural aluminosilicate nanotubes that have been well characterized since their discovery in 19723; And allophanes, aluminosilicates with identical chemical composition but with a different structure. allophanes have been described as hollow nanospheres with a diameter ranging from 3 to 5 nm and their structure depends on the Al/Si ratio: (i) Al-rich allophanes (Al/Si=2, Imogolite type local structure); (ii) Si-rich allophanes (Al/Si<2). Nonetheless, the only evidence for allophanes spherical nature up to date has solely come from TEM observations. The actual morphological structure of allophanes still needs to be further investigated. In the present work, Aluminosilicate samples obtained from soils collected in La Reunion (a French volcanic island in the Indian Ocean region) are studied using an array of diverse characterization techniques. While XRD and FTIR results are consistent with the characteristic allophane fingerprint, NMR analysis reveals an imogolite-type local environment of silicon and aluminium, pointing to a type i Al-rich structure. However, no spherical objects could be observed using TEM. In view of such observations, we propose that the structure of these type i Allophane is not consistent with that of a hollow sphere geometry. To obtain further insight into this matter, we synthesised aluminosilicate nanoparticles (both allophane and imogolite), and thoroughly characterized them using a wide variety of high specificity techniques ranging from the macro crystalline structure (TEM, XRD) to the atomic scale (XAFS, PDF). Our findings point to a structure consistent with that of a short imogolite nanotube type structure, rather than a hollow sphere.

Classification Agris : P33 - Chimie et physique du sol
P32 - Classification des sols et pédogenèse

Auteurs et affiliations

• Levard Clément, CEREGE (FRA)
• Rose Jérôme, CEREGE (FRA)
• Masion Armand, CEREGE (FRA)
• Doelsch Emmanuel, CIRAD-PERSYST-UPR Recyclage et risque (FRA) ORCID: 0000-0002-7478-4296
• Basile-Doelsch Isabelle, CEREGE (FRA)
• Borschneck Daniel, CEREGE (FRA)
• Bottero Jean Yves, CEREGE (FRA)

Source : Cirad - Agritrop (https://agritrop.cirad.fr/569714/)

Métriques

[ Page générée et mise en cache le 2022-04-28 ]