Spelling suggestions: "subject:"ringopening metathesis polymerisation"" "subject:"anopening metathesis polymerisation""
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ROMP-processing of mono- and di-functional imidonorbornene derivativesLeejarkpai, Thanawadee January 1999 (has links)
The work described in the thesis is concerned with making new polymeric materials via ring opening metathesis polymerisation (ROMP) using a well-defined ruthenium carbene as an initiator. The object of the study was to provide a process for producing shaped articles by introducing a reactive liquid mixture into a mould in which the reacting liquid mixture undergoes ROMP in the bulk to produce the moulded article. Mono- and difunctional imidonorbomene derivatives were used as monomer and crosslinker respectively. The properties of the cured samples were determined by sol-gel analysis, DSC, TGA, nmr and IR spectrometry. Gel fraction, Tg and content of unreacted monomer were used to characterise the cured samples. The results indicated a strong dependence of the polymers appearance and properties on the polymerization formulation and protocol, i.e. the monomer, the crosslinker and the polymerization conditions. The relative reactivity of the exo- and endo-monomers was investigated using the 'Hnmr technique since the initiation and propagation steps of the polymerisations can be followed in detail by this technique. The results showed that the polymerisations are living and the exo-isomer is more reactive than endo-isomer. A wider range of polymers can be prepared from solution polymerisation as compared to bulk polymerisation. The polymers derived from solid monomers, the monofunctional monomer with short N-alkyl pendant groups and all the difunctional monomers, could be prepared more easily in solution than in bulk polymerisation. The endo-monomer and the monofunctional monomer with long N-alkyl pendant group showed very low reactivity and were not suitable for ROMP in bulk but underwent solution polymerisation. It was found that the thermal properties of the linear polymers depend upon the amount of each monomer isomer incorporated into the polymer chain and the ength of the N-alkyl pendant groups. All linear polymers are soluble in chlorinated solvents from which clear films can be cast. The work described establishes conditions for production of fully crosslinked solids with only traces of the sol fraction.
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The synthesis and characterisation of water soluble polymers and biomimetic applicationsMegson, Joanna Louise January 1997 (has links)
The first steps towards the long term objective of building entirely synthetic organic/inorganic composite materials in a biomimetic manner have been achieved. Following an introduction and discussion of the background to the work (Chapter 1), the syntheses and characterisation of various molecular weights of both poly(exo, exo-1,4-cyclopentenylene-5,6-ethylidene-2,3-sodium dicarboxylate) and poly(exo,endo-l,4-cyclopentenylene-5,6-ethylidene-2,3- sodium dicarboxylate) and model compounds of their repeat units have been described (Chapters 2 and 4). These compounds were used as additives in the crystallisation of CaCO(_3) from supersaturated aqueous solutions of Ca(HC0(_3))(_2) (Chapters 3 and 5). The work described in Chapter 3 showed that the diacid model compounds used as additives controlled the morphology of calcite crystals grown from supersaturated solutions of Ca(HCO(_3))(_2) over a large range of concentrations of model compound; [Ca(^2+)]: [model compound] 10 to 1000:1. The polymers of these monomers appeared to give the same type of crystal morphology as the isolated model repeat units, however, modification was observed on only one face of the CaCO(_3) crystals. This observation, and the relatively small crystal size distributions measured, indicated that the calcite crystallisation was nucleated beneath the polymer films at the truncated modified face and growth continued down into the solution.
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The development of novel polymers for use as substrates and supports in combinatorial chemistryThorn, Zoe Elizabeth January 1999 (has links)
No description available.
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Synthesis of selected cage alkenes and their attempted ring-opening metathesis polymerisation with well-defined ruthenium carbene catalysts / Justus RöscherRöscher, Justus January 2011 (has links)
In this study a number of cage alkenes were synthesised and tested for activity towards ringopening
metathesis polymerisation (ROMP) with the commercially available catalysts 55 (Grubbs-I)
and 56 (Grubbs-II). The first group of monomers are derivatives of tetracyclo[6.3.0.04,1105,9]undec-2-en-6-one (1). The
synthesis of these cage alkenes are summarised in Scheme 7.1. The cage alkene 126b was synthesised by a Diels-Alder reaction between 1 and
hexachlorocyclopentadiene (9, Scheme 7.2). The geometry of 126b was determined from XRD
data. Knowledge of the geometry of 126b also established the geometry of 127 since
conformational changes during the conversion from 126b to 127 are unlikely. Synthesis of the cage alkene 125 by the cycloaddition of 9 to 118 failed. The cage alkene exo-11-
hydroxy-4,5,6,7,16,16-hexachlorohexacyclo[7.6.1.03,8.02,13.010,14]hexa-dec-5-ene (124, Scheme
7.3) could therefore not be prepared. Synthesis of 125 by reduction of 126b with various reduction
systems was not successful. Theoretical aspects of these reactions were investigated with
molecular modelling. A possible explanation for the unreactive nature of 126b towards reduction is
presented, but the lack of reactivity of 118 towards 9 eluded clear explanations. The synthesis of cage alkenes from 4-isopropylidenepentacyclo[5.4.0.02,6.03,10.05,9]-undecane-8,11-
dione (23) did not meet with much success (Scheme 7.4). Numerous synthetic methods were investigated to affect the transformation from 134a/134b to 135
(Scheme 7.5). These attempts evolved into theoretical investigations to uncover the reasons for
the observed reactivity. Possible explanations were established by considering the differences and
similarities between the geometries and electronic structures of reactive and unreactive cage
alcohols. ROMP of cage monomers based on 1 were mostly unsuccessful. Only the cage monomer 127
showed some reactivity. Endocyclic cage monomers with a tetracycloundecane (TCU) framework
showed no reactivity. The results from NMR experiments verified the experimental results.
Hexacyclo[8.4.0.02,9.03,13.04,7.04,12]tetradec-5-en-11,14-dione (3) exhibited notable ROMP reactivity.
Examination of the orbitals of the cage alkenes used in this study suggested that the reactivity of 1
and 3 could possibly be enhanced by removal of the carbonyl groups. Decarbonylation of 1 and 3
yielded the cage hydrocarbons 159 and 175, respectively. ROMP tests revealed that 175 is an
excellent monomer, but 159 was unreactive. The results obtained for the ROMP reactions in this study was rationalised by considering aspects
such as ring strain, energy profiles, steric constraints, and frontier orbital theory. The concept of
ring strain is less useful when describing the reactivity of cage alkenes towards ROMP and
therefore the concepts of fractional ring strain and fractional ring strain energy (RSEf) were
developed. A possible link between RSEf and the ROMP reactivity of cage alkenes was also
established. The following criteria were put forth to predict the reactivity or explain the lack of
reactivity of cage alkenes towards ROMP reactions with Grubbs-I and Grubbs-II. The criteria for ROMP of cage monomers: 1. Sufficient fractional ring strain energy (RSEf).
2. A reasonable energy profile when compared to a reference compound such as cyclopentene.
3. Ability to form a metallacyclobutane intermediate with reasonable distances between different
parts of the cage fragment.
4. Sufficient ability of the polymer fragment to take on a conformation that exposes the catalytic
site.
5. Sufficient size, shape, orientation and energy of HOMO and/or NHOMO at the alkene
functionality of the cage monomer and of the LUMO at the catalytic site. / Thesis (Ph.D. (Chemistry))--North-West University, Potchefstroom Campus, 2012
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Synthesis of selected cage alkenes and their attempted ring-opening metathesis polymerisation with well-defined ruthenium carbene catalysts / Justus RöscherRöscher, Justus January 2011 (has links)
In this study a number of cage alkenes were synthesised and tested for activity towards ringopening
metathesis polymerisation (ROMP) with the commercially available catalysts 55 (Grubbs-I)
and 56 (Grubbs-II). The first group of monomers are derivatives of tetracyclo[6.3.0.04,1105,9]undec-2-en-6-one (1). The
synthesis of these cage alkenes are summarised in Scheme 7.1. The cage alkene 126b was synthesised by a Diels-Alder reaction between 1 and
hexachlorocyclopentadiene (9, Scheme 7.2). The geometry of 126b was determined from XRD
data. Knowledge of the geometry of 126b also established the geometry of 127 since
conformational changes during the conversion from 126b to 127 are unlikely. Synthesis of the cage alkene 125 by the cycloaddition of 9 to 118 failed. The cage alkene exo-11-
hydroxy-4,5,6,7,16,16-hexachlorohexacyclo[7.6.1.03,8.02,13.010,14]hexa-dec-5-ene (124, Scheme
7.3) could therefore not be prepared. Synthesis of 125 by reduction of 126b with various reduction
systems was not successful. Theoretical aspects of these reactions were investigated with
molecular modelling. A possible explanation for the unreactive nature of 126b towards reduction is
presented, but the lack of reactivity of 118 towards 9 eluded clear explanations. The synthesis of cage alkenes from 4-isopropylidenepentacyclo[5.4.0.02,6.03,10.05,9]-undecane-8,11-
dione (23) did not meet with much success (Scheme 7.4). Numerous synthetic methods were investigated to affect the transformation from 134a/134b to 135
(Scheme 7.5). These attempts evolved into theoretical investigations to uncover the reasons for
the observed reactivity. Possible explanations were established by considering the differences and
similarities between the geometries and electronic structures of reactive and unreactive cage
alcohols. ROMP of cage monomers based on 1 were mostly unsuccessful. Only the cage monomer 127
showed some reactivity. Endocyclic cage monomers with a tetracycloundecane (TCU) framework
showed no reactivity. The results from NMR experiments verified the experimental results.
Hexacyclo[8.4.0.02,9.03,13.04,7.04,12]tetradec-5-en-11,14-dione (3) exhibited notable ROMP reactivity.
Examination of the orbitals of the cage alkenes used in this study suggested that the reactivity of 1
and 3 could possibly be enhanced by removal of the carbonyl groups. Decarbonylation of 1 and 3
yielded the cage hydrocarbons 159 and 175, respectively. ROMP tests revealed that 175 is an
excellent monomer, but 159 was unreactive. The results obtained for the ROMP reactions in this study was rationalised by considering aspects
such as ring strain, energy profiles, steric constraints, and frontier orbital theory. The concept of
ring strain is less useful when describing the reactivity of cage alkenes towards ROMP and
therefore the concepts of fractional ring strain and fractional ring strain energy (RSEf) were
developed. A possible link between RSEf and the ROMP reactivity of cage alkenes was also
established. The following criteria were put forth to predict the reactivity or explain the lack of
reactivity of cage alkenes towards ROMP reactions with Grubbs-I and Grubbs-II. The criteria for ROMP of cage monomers: 1. Sufficient fractional ring strain energy (RSEf).
2. A reasonable energy profile when compared to a reference compound such as cyclopentene.
3. Ability to form a metallacyclobutane intermediate with reasonable distances between different
parts of the cage fragment.
4. Sufficient ability of the polymer fragment to take on a conformation that exposes the catalytic
site.
5. Sufficient size, shape, orientation and energy of HOMO and/or NHOMO at the alkene
functionality of the cage monomer and of the LUMO at the catalytic site. / Thesis (Ph.D. (Chemistry))--North-West University, Potchefstroom Campus, 2012
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Synthesis and characterisation of block copolymers and cyclic polymers containing poly(p-phenylenevinylene)sLidster, Benjamin John January 2015 (has links)
Conjugated organic polymers have attracted immense interest for use in the active layer of photovoltaic cells, electroluminescent displays and diagnostic sensors. Precise control of the chemical structure of these conjugated materials is essential to achieve better device performance and certain structural aspects which have received minimal investigation include; the nature of the end groups, the precise control of the molecular weight and the formation of novel polymer topologies. Absolute control of these factors, in particular the end groups, has the potential to further tune the electro-optical properties, eliminate charge trapping and reactive sites, and facilitate block copolymer formation. The ring opening metathesis polymerisation of highly strained cyclophanediene monomers has proven to be an advantageous route to obtain soluble poly(p-phenylenevinylene)s (PPVs). In an extension of this previous work PPVs with both a pristine polymer backbone microstructure and a range of well-defined functional end groups have been prepared. These polymers exhibited excellent degrees of functionality, relatively narrow unimodal distributions and degrees of polymerisation much higher than those attainable by alternate routes. In particular the incorporation of an α-bromoester end group directly resulted in PPVs which were effective macroinitiators in the atom transfer radical polymerisation of methyl methacrylate. The diblock copolymers prepared by this route were isolated with narrow polydispersities, unimodal distributions and were free from homopolymer impurities. This method of preparing rod-b-coil diblock copolymers, where the properties of the two segments can readily be modified, provides access to materials which are of interest for both their self-assembly ability and for the development of a much required phase diagram in this area. Cyclic PPVs are of synthetic interest both for the absence of any end groups and for an infinitely long π-conjugated backbone, both of which are expected to contribute to unique electro-optical properties. The preparation of these target polymers was investigated by the ring expansion metathesis polymerisation of the cyclophanediene monomers. The formation of purely cyclic, low molecular weight PPVs was found to be highly dependent on both the reaction conditions used and the nature of the solubilising substituents. For example the preparation of purely cyclic PPVs with alkoxy side chains was unsuccessful, however the incorporation of alkyl side chains allowed for the successful isolation of the desired cyclic polymers.
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Elaboration de copolymères greffés à squelette poly(1,4-butadiène) et à greffons polaires par combinaison ROMP/ROP / Synthesis of graft copolymers with 1,4-polybutadiene backbone and polar grafts by combination of ROP and ROMPLeroux, Flavien 07 October 2014 (has links)
Le sujet de cette thèse concerne l’élaboration de copolymères greffés possédant un squelette poly(1,4-butadiène) et une haute densité de greffons polaires. La synthèse de copolymères à squelette strictement poly(1,4-butadiène) et possédant une haute densité de greffons selon un enchaînement strictement tête-à-tête a été réalisée par polymérisation par ouverture de cycle par métathèse (ROMP) de monomères cyclobutène 3,4-disubstitués. Le choix des greffons polaires s’est porté sur des poly(Ɛ-caprolactone)s (PCL) et des poly(L-lactide)s (PLLA) obtenus par polymérisation par ouverture de cycle (ROP). Ces polyesters aliphatiques qui présentent une biocompatibilité élevée et une (bio)dégradation rapide, sont utilisés dans de nombreuses applications biomédicales. De plus, les copolymères greffés à greffons polyester peuvent donner accès à des nanomatériaux poreux suite à leur organisation en solution ou à l’état solide, suivie de l’hydrolyse des chaînes polyester.Les copolymères greffés poly(1,4-butadiène)-g-polyester ont été synthétisés selon les stratégies grafting through et grafting from, à partir d’inimers (initiator-monomer) cyclobutène portant une ou deux fonctionalités alcool, capable d’amorcer la ROP du L-lactide ou de l’ Ɛ-caprolactone. La stratégie grafting through a, dans un premier temps, été étudiée. Des macromonomères polyester de type PCL ou PLLA ont été synthétisés. La ROMP de ces macromonomères a conduit à des copolymères greffés poly(1,4-butadiène)-g-polyesters en forme d’étoile de structure définie et dont la densité des greffons est parfaitement contrôlée. La stratégie grafting from a, quant-à-elle, permis d’accéder à des copolymères greffés en forme de peigne. L’organisation des architectures macromoléculaires obtenues a été visualisée par microscopie à force atomique (AFM) et microscopie électronique à transmission (TEM). / The objective of this work was the preparation of graft copolymers with a poly(1,4-butadiene) backbone and a high density of polar grafts. We used a consecutive Ring-Opening Metathesis Polymerization (ROMP)/Ring-Opening Polymerization (ROP) route to prepare poly(1,4-butadiene)-g-polyesters from cyclobutenyl macromonomers bearing one or two polyester segment(s) derived from L-lactide (L-LA) or Ɛ-caprolactone (Ɛ-CL). Poly(L-lactide)s (PLLA) or poly(Ɛ-caprolactone)s (PCL) are important polymers as they are easily (bio)degradable and have tremendous applications as engineering plastics and within the biomedical field. An attractive feature of polyester-grafted copolymers is their potential to act as building blocks for nanomaterials synthesis thanks to the hydrolytically degradable polyester grafts. Cyclobutenyl polyester macromonomers bearing one and two PCL or PLLA arms have been successfully prepared by organocatalyzed ROP of Ɛ-CL or L-LA from a cyclobutenyl alcohol acting as an initiator. Subsequent "grafting through" by ROMP using Grubbs’ second generation catalyst afforded poybutadiene brushes featuring pendant polyester (PLLA or PCL) side-chains. This efficient ROP/ROMP two-step approach has thus allowed the synthesis of well-defined poly(1,4-butadiene)-g-polyester copolymers. The synthesis of graft copolymers via the grafting from approach by ROMP and ROP was also studied. ROMP of 3,4-disubstituted cyclobutenes containing one and two initiating hydroxyl sites for ROP was first investigated with ruthenium initiators. The resulting well-defined poly(1,4-butadiene)s were then used as macroinitiators for the ROP of L-LA or Ɛ-CL. After the ROP, brush copolymers with high molecular weight have been obtained and characterized by microscopy.
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