Blanchard M. auteur aut IRD Morin G. auteur aut IRD Lazzeri M. auteur aut IRD Balan Etienne auteur aut IRD Dabo I. auteur aut IRD text journalArticle eng text/pdf born digital access Recent experimental studies revealed an unprecedented bimodal distribution of arsenate at the hematite (1 (1) over bar2) surface with a simultaneous adsorption of inner-sphere and outer-sphere complexes. In the present study, first-principles calculations based on density-functional theory were performed to provide detailed insights into the structural and electronic properties of such inner-sphere and outer-sphere adsorption complexes on two hydroxylated terminations of the hematite (1 (1) over bar2) surface. For bidentate corner-sharing complexes, the predicted most stable adsorption configurations display interatomic distances in good agreement with EXAFS-derived data (i.e. As-Fe distances of similar to 3.3 angstrom). Our calculations also suggest that edge-sharing bidentate complexes can form on ideal (1 (1) over bar2) hematite surfaces and do not necessarily involve step edges. These edge-sharing complexes would display two As-Fe distances at about 2.85 and 3.45 angstrom, instead of the unique short As-Fe contribution that is usually considered for interpreting EXAFS data. For outer-sphere complexes, the predicted most favorable adsorption configurations indicate that strong hydrogen bonds as well as electrostatic forces stabilize arsenate at the hematite surface. Although not investigated here, the interfacial water structure may also contribute to stabilize further OS arsenate complexes. specialized 064 86 182-195 2012 0016-7037 https://www.documentation.ird.fr/hor/fdi:010055879 10.1016/j.gca.2012.03.013 0016-7037 [F B010055879] https://www.documentation.ird.fr/hor/fdi:010055879 https://www.documentation.ird.fr/intranet/publi/2012/06/010055879.pdf Accès réservé (Intranet de l'IRD) IRD - Base Horizon / Pleins textes 2012-07-04 2017-08-23 fdi:010055879 fre