Synthèse de la triphénylphosphine liée au polystyrène non réticulé et son utilisation lors de la réaction de Mitsunobu. Cyclopropanation catalytique énantiosélective d'alcènes utilisant le diazométhane

Janes, Marc K.

January 2005

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal

Mitsunobu

Mitsunobu

Triphénylphosphine polymérique

Polymeric triphenylphosphine

Cyclopropanation énantiosélective

Enantioselective cyclopropanation

Diazométhane

Diazomethane

Complexes anormaux de palladium

Abnormal palladium complexes

Nuclear Magnetic Resonance of Low-Receptivity Nuclides: The First Demonstration of 61Ni SSNMR as Applied to Structural and Crystallographic Characterization of Diamagnetic Nickel Complexes

Werhun, Peter

January 2017

Nuclear magnetic resonance (NMR) spectroscopy has proven to be an invaluable tool for the modern chemist, despite being a relatively insensitive spectroscopic technique. However, it is precisely this insensitivity that limits characterization of low-receptivity nuclides, which make up the bulk of transition metal nuclides, in particular. In this work, high-fields were used to collect the first 61Ni solid-state NMR (SSNMR) spectra of diamagnetic nickel compounds, specifically, bis(1,5-cyclooctadiene)nickel(0) (Ni(cod)2), tetrakis(triphenylphosphite)nickel(0) (Ni[P(OPh)3]4), and tetrakis(triphenylphosphine)nickel(0) (Ni(PPh3)4). This was complemented by NMR study of the co-ordinated ligands and 61Ni density functional theory (DFT) computations. 61Ni SSNMR spectra of Ni(cod)2 were used to determine its isotropic chemical shift (δiso = 965 ± 10 ppm), span (Ω = 1700 ± 50 ppm), skew (κ = -0.15 ± 0.05), quadrupolar coupling constant (CQ = 2.0 ± 0.3 MHz), quadrupolar asymmetry parameter (η = 0.5 ± 0.2), and the relative orientation of the chemical shift and EFG tensors. Solution study of Ni(cod)2 saturated in C6D6 yielded a narrow 61Ni signal, and the temperature dependence of δiso(61Ni) was assessed (δiso being 936.5 ppm at 295 K). The solution is proposed as a secondary chemical shift reference for 61Ni NMR in lieu of the extremely toxic Ni(CO)4 primary reference. For Ni[P(OPh)3]4, 61Ni SSNMR was used to infer the presence of two distinct crystallographic sites and establish ranges for δ¬iso in the solid state, as well as an upper bound for CQ (3.5 MHz for both sites). For Ni(PPh3)4, fitting provided a δiso value of 515 ± 10 ppm, Ω of 50 ± 50 ppm, κ of 0.5 ± 0.5, CQ of 0.05 ± 0.01 MHz, and η of 0.0 ± 0.2. Ni(cod)2 was chosen for study as it is a ubiquitous source of nickel(0), used for both further synthesis of nickel(0) compounds and directly as a catalyst. The study of Ni[P(OPh)3]4 and Ni(PPh3)4 demonstrated the utility of 61Ni SSNMR given the lack of a previously reported crystal structure for both and the transient nature of Ni(PPh3)4 in solution. The work begins in Chapter 1 by introducing the interactions fundamental to NMR spectroscopy, before moving on to briefly review the field of transition metal nuclide NMR, the chemistry of nickel (with an emphasis on homogeneous catalysis with nickel(0)), and the literature with respect to nickel NMR up to this point. In Chapter 2, the theory and practice of NMR are explained, including solid-state NMR, as well as the basic principles of density functional theory NMR computations. The specific experimental and computational methods of this work are also introduced. Lastly, in Chapter 3 the results are discussed in the context of the concepts presented and literature reviewed, and highlight the use of 61Ni NMR as a means to gain novel information about the chemistry of the compounds studied.

nickel-61

SSNMR

DFT

nickel(0)

zerovalent nickel

ZORA

bis(1,5-cyclooctadiene)nickel(0)

tetrakis(triphenylphosphine)nickel(0)

tetrakis(triphenylphosphite)nickel(0)

Utilisation de nanomatériaux anisotropes pour l'élaboration d'électrodes transparentes conductrices / Use of anisotropic materials for the preparation of transparent and conductive electrodes

Idier, Jonathan

12 December 2016

Ce travail de thèse est principalement dédié à la mise en forme et à l’utilisation de nano-objets unidimensionnels comme matériaux d’électrodes transparentes. Les nanofils d’argent font partie des candidats les plus prometteurs pour le remplacement de l’oxyde d’indium-étain, actuellement le plus répandu dans les dispositifs commerciaux. La forte instabilité des nanofils d’argent à l’oxydation est néanmoins un problème critique puisque les électrodes deviennent moins performantes en peu de temps. En premier lieu, la triphénylphosphine a été utilisée comme agent inhibant l’oxydation. Contrairement aux électrodes non modifiées, celles-ci sont stables pendant plus de trois mois. Une deuxième partie est consacrée à l’utilisation de l’électrofilage pour élaborer des électrodes transparentes à base de nanofibres de matériaux conducteurs (nanofibres de cuivre, nanotubes de carbone, oxyde de graphène réduit). Enfin, une dernière partie concerne l’étude des propriétés mécaniques de nanofibres d’alcool polyvinylique par l’écoulement d’un fluide porteur dans une constriction réalisée en impression 3D. Cette méthode permet une analyse et une évaluation simple et rapide de la contrainte à la rupture des nanofibres, propriété difficilement accessible par des mesures mécaniques traditionnelles. / This PhD work deals mainly with the high scale organization and use of unidimensional nano-objects for making transparent electrodes. Among the candidates of choice for the replacement of indium tinoxide, the main material used in commercial devices, silver nanowires (Ag NW) are among the most promising. However, the tendency of silver nanowires to be quickly oxidized can severely affect their performances. Firstly, this drawback is circumvented through the use of triphenylphosphine (PPh3)as a protective agent. Unlike bare Ag NW electrodes, the PPh3 modified Ag NW electrodes are stable over three months. A second part is dedicated to the production of transparent electrodes via the electrospinning technique. Materials such as copper nanofibers, carbon nanotubes and reduced graphene oxide are investigated. The last part of the manuscript deals with the measurement of the mechanical properties of poly(vinyl alcohol) (PVA) nanofibers. To do so, the flowing of a fluid in a3D-printed constriction is used. Usually determined with difficulty, the fracture strength of the nanofibers can be evaluated quickly at ease.

Électrodes transparentes conductrices

Nanofils d’argent

Substrat flexible

Triphénylphosphine

Oxydation

Électrofilage

Nanotubes de carbone

Oxyde de graphène

Contrainte à la rupture

Nanofibres

Transparent and conductive electrodes

Silver nanowires

Flexible substrate

Triphenylphosphine

Oxidation

Electrospinning

Carbon nanotubes

Graphene oxide

Nanofibers

Fracture strength