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1-19
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Results: 19
Authors:
Vezina, M
Gagnon, J
Villeneuve, K
Drouin, M
Harvey, PD
Citation: M. Vezina et al., (eta(5)-pentamethylcyclopentadienyl)rhodium complexes of upper-rim monophosphinated calix[4]arene, ORGANOMETAL, 20(2), 2001, pp. 273-281
Authors:
Gagnon, J
Drouin, M
Harvey, PD
Citation: J. Gagnon et al., Upper-rim functionalization of calix[4]arene by chloro(isocyanide)gold(I) groups: An entry polymetallic architecture, INORG CHEM, 40(23), 2001, pp. 6052-6056
Authors:
Harvey, PD
Proulx, N
Martin, G
Drouin, M
Nurco, DJ
Smith, KM
Bolze, F
Gros, CP
Guilard, R
Citation: Pd. Harvey et al., Preparation, characterization, and luminescence properties of gallium-metal face-to-face diporphyrins (M = H-2, GaL, Ru(CO)(OH), Co), INORG CHEM, 40(17), 2001, pp. 4134-4142
Authors:
Drouin, M
Citation: M. Drouin, Andre Gide, the itinerary of a rebellious man: 50 years after his death, HISTORIA, (652), 2001, pp. 72-77
Authors:
Gagnon, J
Vezina, M
Drouin, M
Harvey, PD
Citation: J. Gagnon et al., Regioselective upper-rim functionalizations of calix[4]arene by diphenylphosphino groups, CAN J CHEM, 79(10), 2001, pp. 1439-1446
Authors:
Pinette, M
Katz, W
Drouin, M
Blackstone, J
Cartin, A
Citation: M. Pinette et al., Successful planned pregnancy following endometrial ablation with the YAG laser, AM J OBST G, 185(1), 2001, pp. 242-243
Authors:
Vezina, M
Gagnon, J
Villeneuve, K
Drouin, M
Harvey, PD
Citation: M. Vezina et al., Upper-rim monofunctionalization of calix[4]arene by organometallic diphenylphosphinorhodium complexes, CHEM COMMUN, (12), 2000, pp. 1073-1074
Authors:
Drouin, M
Lucas, P
Otis, C
Lemieux, C
Turmel, M
Citation: M. Drouin et al., Biochemical characterization of I-CmoeI reveals that this H-N-H homing endonuclease shares functional similarities with H-N-H colicins, NUCL ACID R, 28(22), 2000, pp. 4566-4572
Authors:
Glaser, R
Shiftan, D
Drouin, M
Citation: R. Glaser et al., Conformational pseudopolymorphism and solid-state CPMAS NMR studies for determination of solvent-dependent solution-state conformational preferences for (-)-scopolamine hydrobromide/hydrochloride salts (vol 64, pg 9219, 1999), J ORG CHEM, 65(6), 2000, pp. 1898-1898
Authors:
Glaser, R
Novoselsky, A
Shiftan, D
Drouin, M
Citation: R. Glaser et al., Eight-membered-ring solid-state conformational interconversion via the atom-flip mechanism, a CPMAS C-13 NMR and crystallographic stereochemical study, J ORG CHEM, 65(20), 2000, pp. 6345-6353
Authors:
Fortin, D
Drouin, M
Harvey, PD
Citation: D. Fortin et al., Preparation and characterization of {[M(dmb)(2)]TCNQ center dot xTCNQ degrees}(n) polymers (M = Cu,Ag; dmb=1,8-diisocyano-p-menthane; x=0, 0.5, 1.0, 1.5; TCNQ=7,7,8,8-tetracyano-p-quinodimethane) and design of new semi- and photoconducting organometallic materials, INORG CHEM, 39(13), 2000, pp. 2758-2769
Authors:
Glaser, R
Shiftan, D
Drouin, M
Citation: R. Glaser et al., The solid-state structures of (-)-scopolamine free base, (-)-scopolamine methobromide, (-)-scopolamine hydrobromide trihydrate, and of the pseudopolymorphic forms of (-)-scopolamine hydrochloride anhydrate and 1.66hydrate, CAN J CHEM, 78(2), 2000, pp. 212-223
Authors:
Toro, A
Wang, Y
Drouin, M
Deslongchamps, P
Citation: A. Toro et al., Transannular Diels-Alder model studies on the total synthesis of chatancin. The furanophane approach. Part 2 [1]: Macrocyclization and Diels-Alder reaction, TETRAHEDR L, 40(14), 1999, pp. 2769-2772
Authors:
Glaser, R
Shiftan, D
Drouin, M
Citation: R. Glaser et al., Conformational pseudopolymorphism and solid-state CPMAS NMR studies for determination of solvent-dependent solution-state conformational preferences for (-)-scopolamine hydrobromide/hydrochloride salts, J ORG CHEM, 64(25), 1999, pp. 9217-9224
Authors:
Fortin, D
Drouin, M
Harvey, PD
Herring, FG
Summers, DA
Thompson, RC
Citation: D. Fortin et al., Chemistry of the Ag-2(dmb)(2)(2+) template (dmb=1,8-diisocyano-p-menthane). Preparation, characterization, and x-ray structures of the Ag-2(dmb)(2)Y-2 dimers (Y = NO3-, ClO4-, CH3CO2-) and the paramagnetic [Ag-4(dmb)(4)(TCNQ)(3)]TCNQ complex (TCNQ=7,7,8,8-tetracyanoquinodimethane), INORG CHEM, 38(6), 1999, pp. 1253-1260
Authors:
Zhang, TL
Drouin, M
Harvey, PD
Citation: Tl. Zhang et al., Preparation, spectroscopic characterization, and theoretical study of the [Pd-4(dmb)(4)(PPh3)(2)]Cl-2 complex (dmb=1,8-diisocyano-p-menthane) and itsorganometallic polymer {[Pd-4(dmb)(5)](CH3CO2)(2)}(n): The first examples of 58-electron linear Pd-4 clusters, INORG CHEM, 38(6), 1999, pp. 1305-1315
Authors:
Zhang, TL
Drouin, M
Harvey, PD
Citation: Tl. Zhang et al., Preparation, characterization, and luminescence properties of a 58-electron linear Pt-4 cluster, [Pt-4(dmb)(4)(PPh3)(2])(2+) (dmb = 1,8-diisocyano-p-menthane), and its diphosphine polymers, INORG CHEM, 38(5), 1999, pp. 957-963
Authors:
Zhang, TL
Drouin, M
Harvey, PD
Citation: Tl. Zhang et al., Preparation, spectroscopic characterization, and frontier MO study of the heteronuclear luminescent [Pt2Au2(dmb)(2)(PPh3)(4)] (PF6)(2) cluster (dmb=1,8-diisocyano-p-menthane). A cluster with a formal Au-0-Au-0 bond encapsulated inside a "Pt-2(dmb)(2)(2+) " fragment, INORG CHEM, 38(22), 1999, pp. 4928-4936
Authors:
Zhang, T
Drouin, M
Harvey, PD
Citation: T. Zhang et al., Properties of a new 58-electron butterfly [Pt-4(mu(2)-dpam)(3)(mu(2)-CO)(3)(eta(1)-dpam)](2+) cluster, J CLUST SCI, 9(2), 1998, pp. 165-184
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1-19
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