Discovery-Oriented Screening of Dynamic Systems: Combinatorial and Synthetic Applications

Angelin, Marcus

January 2010

This thesis is divided into six parts, all centered around the development of dynamic (i.e., reversibly interacting) systems of molecules and their applications in dynamic combinatorial chemistry (DCC) and organic synthesis. Part one offers a general introduction, as well as a more detailed description of DCC, being the central concept of this thesis. Part two explores the potential of the nitroaldol reaction as a tool for constructing dynamic systems, employing benzaldehyde derivatives and nitroalkanes. This reaction is then applied in part three where a dynamic nitroaldol system is resolved by lipase-catalyzed transacylation, selecting two out of 16 components. In part four, reaction and crystallization driven DCC protocols are developed and demonstrated. The discovery of unexpected crystalline properties of certain pyridine β-nitroalcohols is used to resolve a dynamic system and further expanded into asynthetic procedure. Furthermore, a previously unexplored tandem nitroaldol-iminolactone rearrangement reaction between 2-cyanobenzaldehyde and primarynitroalkanes is used for the resolution of dynamic systems. It is also coupled with diastereoselective crystallization to demonstrate the possibility to combine several selection processes. The mechanism of this reaction is investigated and a synthetic protocol is developed for asymmetric synthesis of 3-substituted isoindolinones. Part five continues the exploration of tandem reactions by combining dynamic hemithioacetal or cyanohydrin formation with intramolecular cyclization to synthesize a wide range of 3-functionalized phthalides. Finally, part six deals with the construction of a laboratory experiment to facilitate the introduction of DCC in undergraduate chemistry education. The experiment is based on previous work in our group and features an acetylcholinesterase-catalyzed resolution of a dynamic transthioacylation system. / QC 20100628

chemical education

crystallization

dynamic combinatorial chemistry

dynamic combinatorial resolution

dynamic system

enzyme catalysis

isoindolinone

lipase

nitroalcohol

nitroaldol reaction

phthalide

reversible

secondary alcohol

systems chemistry

tandem reaction

Organic chemistry

Organisk kemi

Bioorganic chemistry

Bioorganisk kemi

Développement de nouvelles stratégies Robustes, Efficaces et Orthogonales pour l’élaboration et la fonctionnalisation de matériaux polymères / Controlled radical polymerization, click chemistry, CuAAC, tandem reaction, onepot reaction, thiolene, thiol-ene, orthogonal chemistry, crosslinked PDMS, thin films

Damiron, Denis

17 December 2009

Les travaux réalisés au cours de cette thèse concernent trois différentes techniques de formulation innovantes qui ont été étudiées en tant que procédés robustes et efficaces pour l’élaboration de polymères fonctionnels à architecture contrôlée ou bien de films minces réticulés. La première stratégie exploite le caractère orthogonal de la click chemistry la plus connue: la cycloaddition catalysée par le cuivre(I) entre un azoture et un alcyne (CuAAC). Nous avons développé deux stratégies monotopes tandem complémentaires alliant CuAAC et Polymérisation Radicalaire Contrôlée (PRC) afin d’obtenir efficacement des architectures complexes en une seule étape. La deuxième stratégie concerne l’utilisation de la chimie thiol-ène en tant que click chemistry pour la fonctionnalisation de polymères et la réalisation d’architectures bien définies. Une série de polymères portant des insaturations ont été synthétisés par des techniques de polymérisation contrôlée dans le but d’étudier et de comparer l’efficacité des couplages thiol-ène initiés thermiquement ou hotochimiquement. Dans cette étude, l’orthogonalité de la chimie thiol-ène avec la CuAAC a également été étudiée. La troisième stratégie est inspirée des récentes techniques d’élaboration de matériaux réticulés/fonctionnalisés par couplage des azotures avec des insaturations. Nous avons développé une nouvelle stratégie d’élaboration efficace de matériaux massifs et de films minces de PDMS réticulés par utilisation d’un diazoture comme agent réticulant. Cette étude est réalisée en combinant des expertises en rhéologie, chimie et en couches minces. / This thesis focuses on three different and innovative techniques studied as efficient and robust processes to elaborate functional polymers with controlled architecture or crosslinked materials and thin films. The first strategy exploits the orthogonal property of a famous click chemistry: the Copper (I)-catalyzed Azide–Alkyne Cycloaddition (CuAAC). We developed two complementary strategies based on the one-pot tandem combination of CuAAC and Controlled Radical Polymerisation techniques (CRP) to efficiently elaborate complex polymer architectures. The second strategy is focused on the thiol-ene chemistry as a click chemistry and its use for the functionalisation of polymers in order to obtain well defined architectures. A series of alkenefunctional polymers were synthesized by controlled polymerization techniques in order to investigate and compare the efficiency and orthogonality of both photochemically and thermally initiated thiol-ene click coupling reactions. Orthogonality of thiol-ene chemistry with CuAAC was also studied. The third strategy is inspired of new processes developed to perform crosslinked/functionalised materials by azide-ene couplings. We investigate a new strategy for the elaboration of crosslinked PDMS in bulk or in thin films with the use of a diazide as coupling agent. This last study combines analyses in rheology, chemistry and in thin layer.

PDMS réticulé

Films minces

Polymérisation radicalaire contrôlée

CuAAC

Réaction tandem

Réaction onepot

Thiolène

Chimie orthogonale

Click chemistry

Crosslinked PDMS

Thin films

Controlled radical polymerization

Tandem reaction

Onepot reaction

Thiolene

Orthogonal chemistry

620.192