Jacques Mering

Born3 January 1904

Died29 March 1973 (aged 69)

CitizenshipRussian
Naturalised French (1930)

AlmamaterFaculté des sciences de Paris

Jacques Mering
Born	(1904-01-03)3 January 1904 Vilkaviškis, Lithuania
Died	29 March 1973(1973-03-29) (aged 69) Paris, France
Citizenship	Russian Naturalised French (1930)
Alma mater	Faculté des sciences de Paris
Scientific career
Fields	Clay mineralogy X-ray diffraction
Institutions	Faculté des sciences de Paris Centre National de Recherche Scientifique
Notable students	Rosalind Franklin

Jacques Mering (3 January 1904–29 March 1973)^[1] was a Lithuanian-born, naturalised French engineer,^[2] well known in the fields of clay mineralogy and clay science, in graphite studies, and in the applications of X-ray diffraction and electron-optical methods to these.^[3]

Mering earned a Diplôme d'Ingénieur en Génie Electrique (Engineering Degree in Electrical Engineering) from École Spéciale des Travaux Publics in Paris in 1925, and Licencié de Sciences (BSc) from Faculté des sciences in Paris in 1928. He rose to become director of research at the Centre National de Recherche Scientifique (CNRS; France's National Centre for Scientific Research) in Paris; subsequently, in 1969, Mering founded and, until his death, directed the CNRS Centre de Recherche sur les Solides à Organisation Cristalline Imparfaite (Research Center on Solids with Imperfect Crystalline Organization), in Orléans, France. Mering is also remembered for his formative influence on the British physical chemist Rosalind Franklin, whom he trained in X-ray crystallography in Paris, and who, until her untimely death, produced DNA crystallographic data of exquisite quality.^[4]^[5]

Jacques Mering was born on 3 January 1904 to a Lithuanian Jewish ("Litvak") family in Vilkaviškis, Lithuania, then within the Russian Empire.^[2] After completing education up to seconday school in Russia, he went to France in 1921 to study engineering.^[1] In 1925 he obtained the degree of Diplôme d'Ingénieur en Génie Electrique (Engineering Degree in Electrical Engineering) from École Spéciale des Travaux Publics in Paris, and in 1928 a Licence de Sciences (equivalent to bachelor in science degree) from Faculté des sciences in Paris.^[1]^[2]

Career

He joined the Faculté des sciences in Paris as research engineer in 1925, remaining in that position while he was pursued his Licence de Sciences. In the late 1920s he trained for X-ray crystallography under Marcel Mathieu (who had trained under the Nobel laureate William Henry Bragg at the Royal Institution in London). Mering was naturalised as a French citizen in 1930, and continued to work as a Faculté des sciences research engineer until 1931.^[2]

After conscripted service in the French Army (1931-1932), Mering joined Laboratoire Central des Services Chimique de l'Etat (now Institut National de Recherche Chimique Appliquée), first in Montpellier, then Grenoble (now under Joseph Fourier University), and finally in Paris. At Grenoble he carried out his research as a refugee during World War II, and he set up the first X-ray laboratory there.^[2] He returned to Paris after the war in 1945. In 1959 he became director of research at the Centre National de Recherche Scientifique (CNRS), and in 1969, director of the CNRS Centre de Recherche sur les Solides à Organization Cristalline Imparfaite (Research Center on Solids with Imperfect Crystalline Organization) in Orléans, France (where he was succeeded after his death by Jose J. Fripia).^[1]^[2]

Scientific contributions

Mering published over 100 technical papers on X-ray and electron diffraction of clays and related layer silicates, and of carbon, graphite, and the phenomena involved in graphitisation. He also performed numerous experimental works on fine-grained materials, including crystal growth in gels, the crystalline organization in cellulose, the 'decoration' of kaolinite crystals with colloidal gold particles, clays as catalysts, montmorillonites, hectorite, and clay-organic complexes.^[1]^[6]^[7]

Awards and recognitions

Mering was a founding member and then President (1956–1958) of Groupe Français des Argiles. He was also president of the Groupe Français d'Etude des Carbones, and of the Association Française de Cristallographie. At the time of his death, he was Vice-Président of the Société Française de Minéralogie et Cristallographie, and he was an elected member of The Clay Minerals Society in the U.S.^[1] A technical work entitled X-Ray Diffraction by Disordered Lamellar Structures (1990), by former students and collaborators, was in stated tribute to his life's work in related areas.^[8]

Personal life

References

1 2 3 4 5 6 Brindley, G. W. (1973). "Jacques Mering" (PDF). Clays and Clay Minerals. 21 (5): 425–426. Bibcode:1973CCM....21..425B. doi:10.1346/CCMN.1973.0210520. S2CID 189825215. Archived from the original (PDF) on 23 September 2015. Retrieved 26 August 2014. [I]n 1974 [Jose J. Fripia] was appointed director of the C.N.R.S. Centre de Recherche sur les Solides à Organization Cristalline Imparfaite, at Orléans, France, the position occupied previously by Jacques Mering who also was a member of our society.
1 2 3 4 5 6 Wyart, J (1962). "The New Crystallography in France". In Ewald, E.E. (ed.). Fifty Years of X-Ray Diffraction. US: Springer-Verlag. p. 454. doi:10.1007/978-1-4615-9961-6_32. ISBN 978-1-4615-9963-0. {{cite book}}: ISBN / Date incompatibility (help)
1 2 Fripiat, J.J. (pres.) & Bailey, S.W. (ed.) (January 1974). Recent Deaths (PDF). AIPEA Newsletter. Vol. 9. Heverlée, Belgique and Madison, Wisconsin: Association International pour l'Etude des Argiles (AIPEA).
↑ Franklin's X-ray crystallographic image, popularised as Photo 51, was the key piece of data upon which was based the description of the double-stranded helical structure of DNA by James Watson and Francis Crick in 1953, see Frize, Frize & Faulkner (2009), op. cit.
↑ See also J.D. Bernal's citing Franklin's as "amongst the most beautiful X-ray photographs of any substance ever taken"; Maddox, Brenda (2003). Rosalind Franklin: The Dark Lady of DNA (p. 153). London, England: Harper Collins. ISBN 0006552110.
↑ Frize, Monique; Frize, Peter R.D.; Faulkner, Nadine (2009). The Bold and the Brave: A History of Women in Science and Engineering. Ottawa: University of Ottawa Press. pp. 289–298. ISBN 9780776607252.^{[better source needed]}
↑ Kiersnowski, Adam; Kolman, Krzysztof; Lieberwirth, Ingo; Yordanov, Stoyan; Butt, Hans-Jürgen; Hansen, Michael Ryan; Anastasiadis, Spiros H. (2012). "New insights into the multilevel structure and phase transitions of synthetic organoclays". Soft Matter. 9 (7): 2291. doi:10.1039/c2sm26821c.^{[better source needed]}
↑ Drits, Victor A; Tchoubar, Cyril, eds. (1990). X-Ray Diffraction by Disordered Lamellar Structures. Berlin, Heidelberg: Springer-Verlag. pp. vi, x. doi:10.1007/978-3-642-74802-8. ISBN 9783642748042. Note, the frontmatter of the cited book, including the pages cited herein, can be downloaded at the DOI link provided.
1 2 Wilmut, Ian (22 May 2015) [July 19, 2002]. "Derring-do of the DNA diva" (book review, Rosalind Franklin: The Dark Lady of DNA, by Brenda Maddox). Times Higher Education (THE). London: THE. Retrieved 26 August 2014. Things were better in France, where Franklin went after receiving her PhD. Her laboratory, on the left bank of the Seine in Paris, was where she learnt X-ray crystallography (as well as how to brew coffee in ceramic beakers, as shown in one of the book's photographs). The head of the laboratory, Jacques Mering, was a deliberate charmer with whom all the young women were in love. He was married, but separated from his wife. Maddox judges that he and Franklin were strongly attracted, but that she was not able or willing to enter into a casual relationship with a man who seems not to have felt it necessary to divorce his wife. Mering later destroyed all her letters to him.
↑ "Recent deaths" (PDF). AIPEA Newsletter. 9: 4–5. 1974.

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