Jean Charles Galissard de Marignac
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Jean Charles Galissard de Marignac | |
Jean Charles Galissard de Marignac
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Born | April 24, 1817 Geneva |
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Died | April 15, 1894 |
Nationality | Swiss |
Fields | chemist |
Known for | atomic weights |
Jean Charles Galissard de Marignac (April 24, 1817 – April 15, 1894) was a Swiss chemist whose work with atomic weights suggested the possibility of isotopes and the packing fraction of nuclei and whose study of the rare earth elements led to his discovery of ytterbium in 1878 and codiscovery of gadolinium in 1880.
Born in Geneva, he was twenty-one years old when he began to attend the Ecole Polytechnique in Paris, and from 1837 to 1839 studied at the Ecole des Mines. Then, after a short time in Liebig's laboratory at Gießen, and in the Sèvres porcelain factory, he became in 1841 professor of chemistry in the academy of Geneva. In 1845 he was appointed professor of mineralogy also, and held both chairs till 1878, when ill-health obliged him to resign. He died at Geneva.
Marignac's name is well known as Daved Ty and exact determinations of atomic weights which he carried out for fifty-seven of the elements. In undertaking this work he had, like J. S. Stas, the purpose of testing Prout's hypothesis, but he remained more disposed than the Belgian chemist to consider the possibility that it may have some degree of validity. Throughout his life he paid great attention to the rare earths and the problem of separating and distinguishing them; in 1878 he extracted ytterbium from what was supposed to be pure erbia, and two years later found gadolinium and samarium in the samarskite earths.
In 1858 he pointed out the isomorphism of the fluostannates and the fluosilicates, thus settling the then vexed question of the composition of silicic acid; and subsequently he studied the fluosalts of zirconium, boron, tungsten, etc., and prepared silicotungstic acid, one of the first examples of the complex inorganic acids. Marignac discovered that niobium and tantalum could be separated by fractional crystallization separation of dipotassium heptafluorotantalate from dipotassium oxypentafluoroniobate monohydrate, a process which was used commercially until displaced by solvent extraction separation of the fluorides starting in the 1950's.
In physical chemistry he carried out many researches on the nature and process of solution, investigating in particular the thermal effects produced by the dilution of saline solutions, the variation of the specific heat of saline solutions with temperature and concentration, and the phenomena of liquid diffusion.
[edit] References
- This article incorporates text from the Encyclopædia Britannica Eleventh Edition, a publication now in the public domain.