363 research outputs found
Catalogue des livres de médecine, chirurgie, pharmacie et autres, imprimés, ou qui se trouvent en nombre. A Paris, chez d'Houry, seul imprimeur-libraire de Mgr. Le duc d'Orléans & de Mgr. Le duc de Chartres, rue de la Vieille-Bouclerie.
[Catalogue de libraire. Paris. Houry, Laurent-Charles d'. 1777]Avec mode text
De la Syrie considérée sous le rapport commercial, par M. C.-B. Houry
Contient une table des matièresAvec mode text
Exposé de la conduite de M. le duc d'Orleans dans la révolution de France
(Published By Imp. de la Veuve Houry & Debure
When Regimes Fall Their Statues Fall With Them: The birth, life and death of Lenin in the Republic Square of Yerevan, Armenia
This thesis examines the complex process of memory making and unmaking during Armenia’s early, mid and post-transition periods as a Soviet republic. By positioning the statue of Vladimir Lenin, which once stood at the central square of its capital city, as a focal element of the discourse, this thesis uses the analysis of the bodily interplay between the statue and its viewers to narrate the transitional conditions of each time period. Drawing on multidisciplinary references and archival materials, it identifies key themes that define the main transitional reconfigurations in the three stages of the statue’s lifespan in the center: birth, life and death. By discussing alterations of semiotics, perceptions and emotions, this thesis argues that the statue is not a passive object subject to transformation, but rather a pivotal player in the process of the transformation that in turn plays an important role in the construction and deconstruction of the collective memory.AR2A011Architectural History ThesisArchitecture, Urbanism and Building Science
Electrocatalytic activity at surface-modified Pt nanoparticles assembled in polyelectrolyte
Assemblies of polyacrylate-capped Pt nanoparticles (〈d〉 =2.5±0.6 nm) in poly(diallyldimethylammonium chloride) are reported to be electrocatalytically active for key charge-transfer reactions, viz., hydrogen evolution, hydrogen oxidation, and oxygen reduction and can thus serve as model nanostructured electrodes for studying electrocatalysis at well-characterized solution-prepared Pt and other metal nanoparticles. These results indicate that catalytic adsorption sites for the O2 reduction and H2 oxidation reactions are not blocked at the surface-modified nanoparticles, and that charge and mass transport supporting these electrochemical reactions are feasible in the films. Comparison is made with an electrochemically activated polycrystalline Pt electrode. © 2006 The Electrochemical Society. All rights reserved.Ahmadi TS, 1996, SCIENCE, V272, P1924, DOI 10.1126-science.272.5270.1924; Ahmadi TS, 1996, CHEM MATER, V8, P1161, DOI 10.1021-cm9601190; Bard A. J., 2001, ELECTROCHEMICAL METH; CLAVILIER J, 1988, ACS SYM SER, V378, P202; Climent V, 2000, J PHYS CHEM B, V104, P3116, DOI 10.1021-jp993480t; CONWAY BE, 1957, J CHEM PHYS, V26, P532, DOI 10.1063-1.1743339; Ghannoum S, 2003, LANGMUIR, V19, P4804, DOI 10.1021-la0209839; KABBABI A, 1994, J ELECTROANAL CHEM, V373, P251, DOI 10.1016-0022-0728(94)03503-2; KONISHITA K, 1990, J ELECTROCHEM SOC, V137, P845; Li Y, 2002, LANGMUIR, V18, P4921, DOI 10.1021-la011469q; Li Y, 2000, ORG LETT, V2, P2385, DOI 10.1021-ol0061687; Markarian MZ, 2005, J PHYS CHEM B, V109, P11616, DOI 10.1021-jp044267m; Markovic N. M., 2003, CATALYSIS ELECTROCAT; Markovic NM, 1996, J PHYS CHEM-US, V100, P6715; Markovic NM, 1997, J PHYS CHEM B, V101, P5405, DOI 10.1021-jp970930d; MARKOVIC NM, 1995, J PHYS CHEM-US, V99, P3411, DOI 10.1021-j100011a001; Markovic NM, 2001, FUEL CELLS, V1, P105, DOI 10.1002-1615-6854(200107)1:2105::AID-FUCE1053.0.CO;2-9; Markovic NM, 1996, J CHEM SOC FARADAY T, V92, P3719, DOI 10.1039-ft9969203719; PARSONS R, 1958, T FARADAY SOC, V54, P1053, DOI 10.1039-tf9585401053; Petroski JM, 1998, J PHYS CHEM B, V102, P3316, DOI 10.1021-jp981030f; Schmidt TJ, 2002, J ELECTROANAL CHEM, V524, P252, DOI 10.1016-S0022-0728(02)00683-6; Schmidt TJ, 2002, ELECTROCHIM ACTA, V47, P3765, DOI 10.1016-S0013-4686(02)00347-X; Takasu Y, 1996, ELECTROCHIM ACTA, V41, P2595, DOI 10.1016-0013-4686(96)00081-3; Toda T, 1999, J ELECTROCHEM SOC, V146, P3750, DOI 10.1149-1.1392544; Toda T, 1998, J ELECTROCHEM SOC, V145, P4185, DOI 10.1149-1.1838934; Toda T, 1999, J ELECTROANAL CHEM, V460, P258, DOI 10.1016-S0022-0728(98)00361-1; TOSHIMA N, 1993, J CHEM SOC FARADAY T, V89, P2537, DOI 10.1039-ft9938902537; WATANABE M, J ELECTROANAL CHEM I; Yang MH, 2006, BIOMATERIALS, V27, P246, DOI 10.1016-j.biomaterials.2005.05.077; Ye HC, 2005, J AM CHEM SOC, V127, P4930, DOI 10.1021-ja0435900; Zhao MQ, 1999, ADV MATER, V11, P21764
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