Iron (II) citrate complex as a food supplement: Synthesis, characterization and complex stability

Iron deficiency represents a widespread problem for a large part of the population, especially for women, and has received increasing attention in food/supplement research. The contraindications of the iron supplements commercially available (e.g., imbalances in the levels of other essential nutrients, low bioavailability, etc.) led us to search for a possible alternative. In the present work, a rapid and easy method to synthetize a solid iron (II) citrate complex from iron filings and citric acid was developed to serve, eventually, as a food supplement or additive. In order to state its atomic composition and purity, an assortment of analytical techniques was employed (e.g., combustion analysis, thermogravimetry, X-ray diffractometry, UV/Vis spectrophotometry, etc.). Results demonstrate that the synthesized crystalline solid corresponds to the formula FeC6H6O7∙H2O and, by consequence, contains exclusively iron (II), which is an advantage with respect to existing commercial products, because iron (II) is better absorbed than iron (III) (high bioavailability of iron)

It only needs one man – or can mixed groups be described by feminine generics?

Past research has shown that gender equality can be promoted or hampered by language use. In many languages, such as Italian or French, the masculine form is used as a generic for mixed gender groups even when women are the majority. The alternative use of feminine generic plural forms, although promoting the cognitive inclusion of women, is generally perceived as grammatically unacceptable. This is the first research demonstrating that feminine generics are perceived as grammatically less acceptable the smaller the distance of the male target from the grammatical violation (proximity hypothesis). The alternative hypothesis, according to which violations are more disturbing when the male target is mentioned earlier (primacy hypothesis), received no support. Implications of these results are discussed with respect to the most recent debate about gender-fair language use in political communication in Italian and French

Comment on " Eshelby twist and correlation effects in diffraction from nanocrystals "

The aim of this comment is to show that anisotropic effects and image fields should not be omitted as they are in the publication of A. Leonardi, S. Ryu, N. M. Pugno, and P. Scardi (LRPS) [J. Appl. Phys. 117, 164304 (2015)] on Pd cylindrical nanowires containing an axial screw dislocation. Indeed, according to our previous study [Phys. Rev. B 88, 224101 (2013)], the axial displacement field along the nanowire exhibits both a radial and an azimuthal dependence with a twofold symmetry due the orientation. As a consequence, the deviatoric strain term used by LRPS is not suitable to analyze the anisotropic strain fields that should be observed in their atomistic simulations. In this comment, we first illustrate the importance of anisotropy in Pd nanowire by calculating the azimuthal dependence of the deviatoric strain term. Then the expression of the anisotropic elastic field is recalled in term of strain tensor components to show that image fields should be also considered. The other aspect of this comment concerns the supposedly loss of correlation along the nanorod caused by the twist. It is claimed for instance by LRPS that : "As an effect of the dislocation strain and twist, if the cylinder is long enough, upper/lower regions tend to lose correlation, as if the rod were made of different sub-domains.". This assertion appears to us misleading since for any twist the position of all the atoms in the nanorod is perfectly defined and therefore prevents any loss of correlation. To clarify this point, it should be specified that this apparent loss of correlation can not be ascribed to the twisted state of the nanowire but is rather due to a limitation of the X-ray powder diffraction. Considering for instance coherent X-ray diffraction, we show an example of high twist where the simulated diffractogram presents a clear signature of the perfect correlation