Fungicide Sensitivity of Erysiphe necator and Plasmopara viticola from Virginia and nearby states

Colcol, Jeneylyne Ferrera

29 September 2008

This study was undertaken to determine the sensitivity of grape downy mildew (DM, Plasmopara viticola) and powdery mildew (PM, Erysiphe necator) to commonly used single-site fungicides in Virginia and nearby states. DM and PM isolates were collected from 2005 to 2007. In grape leaf disc bioassays, 92% of the DM isolates were QoI (azoxystrobin)-resistant, but none were resistant to mefenoxam. Eighty-two percent of the PM isolates were QoI-resistant, but none were resistant to boscalid and quinoxyfen. The frequency of the G143A point mutation, which confers high levels of QoI resistance, was quantified in DM and PM isolates by real-time PCR. Most of the QoI-resistant DM and PM isolates contained >95% of the 143A allele. QoI-sensitive DM isolates contained less than 1% of 143A. One out of 145 and 14 out of 154 QoI-resistant DM and PM isolates (able to grow on azoxystrobin concentration ï ³ 1 µg/ml), respectively, contained less than 1% 143A. Most PM isolates exhibited reduced sensitivity to five DMI fungicides when compared to a sensitive subgroup (n=9) and compared to published reports for unexposed populations; the resistance factor (median EC50 of the entire isolate collection divided by median EC50 of sensitive subgroup) was highest for tebuconazole (360) and myclobutanil (350), followed by triflumizole (79), triadimefon (61), and fenarimol (53). Sensitivities to all five DMI fungicides, but also azoxystrobin, were moderately to strongly correlated (pairwise r-values ranging from 0.60 to 0.88). / Master of Science in Life Sciences

Erysiphe necator

Plasmopara viticola

grape powdery mildew

triadimefon

triflumizole

tebuconazole

fenarimol

myclobutanil

azoxystrobin

boscalid

quinoxyfen

mefenoxam

sterol demethylation inhibitors

grape downy mildew

fungicide resistance

quinone outside inhibitors

Chemical synthesis and biological evaluation of a NAD(P)H:quinone oxidoreductase-1-targeted tripartite quinone drug delivery system

Volpato, Milène, Abou-Zeid, N., Tanner, R.W., Glassbrook, L.T., Taylor, James P., Stratford, I.J., Loadman, Paul, Jaffar, M., Phillips, Roger M.

January 2007

No / NAD(P)H:quinone oxidoreductase-1 (NQO1) is a potential target for therapeutic intervention but attempts to exploit NQO1 using quinone-based bioreductive prodrugs have been largely compromised by toxicity to organs that inherently express high levels of NQO1. In an attempt to circumvent this problem, this study describes the development of a tripartite quinone-based drug delivery system, the ultimate objective of which is to release a targeted therapeutic agent following the reduction of a quinone "trigger" by NQO1. Molecular modeling of drug/NQO1 interactions were conducted prior to the synthesis of N-{4-[bis-(2-chloroethyl)-amino]-phenyl}-beta,beta,2,4,5-pentamethyl-3,6-dioxo-1,4-cyclohexadiene-1-propanamide (prodrug 1). Prodrug 1 is a good substrate for purified NQO1 (V(max) and K(m) values of 11.86 +/- 3.09 micromol/min/mg and 2.70 +/- 1.14 micromol/L, respectively) and liquid chromatography-mass spectrometry analysis of the metabolites generated showed that lactone 3 and aniline mustard 4 were generated in a time- and NQO1-dependent manner. Chemosensitivity studies showed that prodrug 1 is selectively toxic to cells that overexpress NQO1 under aerobic conditions, and comet assay analysis confirmed the presence of elevated interstrand cross-links in NQO1-rich compared with NQO1-deficient cells. Hypoxic sensitization (hypoxic cytotoxicity ratio = 15.8) was observed in T47D cells that overexpress cytochrome P450 reductase. In conclusion, the results of this study provide mechanistic proof of principle that a tripartite benzoquinone drug delivery system is enzymatically reduced to release an active therapeutic agent. Further development of this concept to fine-tune substrate specificity for specific reductases and/or the inclusion of alternative therapeutic agents is warranted.

NAD(P)H:quinone oxidoreductase-1 (NQO1)

Anti-tumor activity

Anti-cancer therapeutics

Bioreductive prodrugs

DNA damage

Contrôle cavitaire de la réactivité redox d'un ion métallique (Cu) dans un environnement biomimétique / Supramolecular redox control of a biomimetic metallo-site (Cu) embedded in a cavity

Brugnara, Andrea

18 November 2013

La molécule X6TMPA, constituée d’une unité TMPA (tris(2-pyridylméthyl)amine) greffée de façon covalente à trois des six unités aromatiques du calix[6]arène, permet de coordiner et stabiliser un ion cuivre (Cu+ et Cu2+) dans un environnement mononucléaire. Ces composés possèdent des propriétés uniques en chimie hôte-invité ainsi qu’en réactivité redox. De tels systèmes présentent cependant des limitations car : – le macrocycle et les complexes métalliques associés ne sont solubles qu’en milieu organique ; – le complexe cuivreux obtenu avec un tel macrocycle n’est réactif vis-à-vis de l’oxygène qu’à l’état solide. Le présent travail de thèse décrit les modifications introduites dans la structure du composé X6TMPA pour faire face à ces restrictions, détaillant ainsi les études conduites afin d’évaluer l’impact des modifications sur les propriétés des molécules résultantes. Le chapitre 2 présente la stratégie synthétique de « trifonctionnalisation » du grand col du macrocycle. Elle a été employée pour l’introduction de groupements hydrophiles, qui rendent le calix[6]arène et les complexes métalliques associés solubles en milieu aqueux. Des études de reconnaissance moléculaire en solution aqueuse ont été ainsi menées. Une propriété très remarquable en chimie hôte-invité est la forte affinité du complexe cuivrique pour l’anion fluorure en milieu aqueux. Le chapitre 3 présente la stratégie synthétique de « hexafonctionnalisation » du grand col du macrocycle. Elle a permis d’obtenir des composés qui ont été utilisés pour des applications telles que l’immobilisation sur surface et la réaction de monoclick. Le chapitre 4 présente la stratégie synthétique de « trifonctionnalisation » du petit col du macrocycle. Elle a permis d’obtenir des systèmes réactifs en solution, notamment un composé contenant trois unités phénol qui donne un radical stable à température ambiante ainsi qu’un composé contenant trois unités quinone dans lequel la cavité est devenue une unité redox-active. Ainsi, des études concernant les macrocycles et leurs complexes monométalliques à base de Zn2+, Cu+ et Cu2+ sont exposées et discutées. / The X6TMPA molecule is composed by a tris(2-pyridylmethyl)amine (TMPA) cap covalently linked to the small rim of the calix[6]arene. This compound can coordinate and stabilize a Cu(I)/Cu(II) ion in a mononuclear environment. These compounds possess unique properties in host-guest and redox chemistry.This PhD thesis work describes some synthetic strategies employed in order to modify the scaffold of the macrocycle, either at the large or the small rim. Moreover, the studies conducted in order to evaluate the impact of each structural modification on the reactivity of the resulting system are detailed. Chapter 2 describes the “large rim tri-functionalization” strategy. It has been employed to introduce three hydrophilic moieties on the calix[6]arene unit. These groups enable the water-solubilization of the molecule, as well as the Cu(I)/Cu(II) monometallic complexes. For these systems, host-guest chemistry in aqueous media has been explored: a remarkable property is the high affinity of the cupric complex for fluoride anion. Chapter 3 describes the “large rim hexa-functionalization” strategy. The obtained compounds have been employed for novel applications, as surface functionalization or “monoclick” reaction. Chapter 4 describes the “small rim tri-functionalization” strategy. The obtained compounds are reactive in solution. A phenol-containing macrocycle, that gives a stable radical species at room temperature, and a quinone-containing macrocycle, in which the calix[6]arene moiety is a redox-active unit, are presented. Moreover, the reactivity of the monometallic complexes (Zinc, Copper) has been explored and discussed.

Calix[6]arène

Calix[6]azacryptand

Fonctionnalisation calix[6]arène

Hydrosolubilisation

Immobilisation sur surface

Calix[6]quinone

Cuivre

Zinc

Confinement cavitaire

Chimie hôte-invité

Radical phénoxyle

Activation dioxygène

Biomimétisme

Calix[6]arene

Calix[6]azacryptand

Calix[6]arene functionalization

Water-solubilizaton

Surface functionalization

Calix[6]quinone

Copper

Zinc

Host-guest chemistry

Phenoxyl radical

Dioxygen activation

Biomimetic model

547.056 52

Hormetic dietary phytochemicals from Western Canadian plants: Identification, characterization and mechanistic insights

2013 June 1900

Activation of mammalian stress responsive pathways by plant secondary metabolites may contribute to the protection against certain chronic diseases afforded by fruit and vegetable consumption. This work focuses on the identification of plant compounds that activate the stress-responsive enzyme quinone reductase (QR) by stabilizing the transcription factor NF-E2 related factor-2 (Nrf2). Screening methanolic extracts of plants from Western Canada for QR induction in a mouse hepatoma cell line (Hepa-1c1c7) led to the identification of twenty-one extracts capable of doubling the activity of QR. Bioassay-guided fractionation of six extracts led to the identification of novel classes of compounds with QR-inducing activity including fatty-acid derived polyacetylenes, phthalides, and cannabinoids. Studies using low molecular weight thiols and the recombinantly expressed protein Keap1, the principal negative regulator of Nrf2, supported a mechanism of QR activation involving covalent modification of Keap1 cysteines for the polyacetylenes and phthalides. Analysis of transcriptional changes in response to treatment with a panel of QR-inducing compounds provided strong support for Nrf2 activation by the polyacetylene (3S,8S)-falcarindiol and the isothiocyanate (R)-sulforaphane and weaker support for the compounds (3R,8S)-falcarindiol, 6-isovaleryl-umbelliferone (6-IVU) and (Z)-ligustilide. Additionally, transcript level analyses supported a role for the aryl-hydrocarbon receptor in QR-activation by (3R,8S)-falcarindiol, (Z)-ligustilide, (R)-sulforaphane, 6-IVU and cannabidiol and suggested that treatment with polyacetylenes with a (3R)-configuration, (Z)-ligustilide and 6-IVU causes substantial changes in the expression of genes associated with lipid homeostasis and energy metabolism. As a whole, this work provides evidence that compounds that activate QR (and Nrf2) are widely distributed in the Canadian flora. However, of these QR activators, few are active at concentrations that are expected to be achieved through dietary consumption. Nevertheless, the most exceptional compounds isolated in this work, the compounds (3S,8S)-falcarindiol and epoxyfalcarindiol are highly potent and appear to be or are expected to be specific for activating Nrf2 and thus warrant attention with respect to dietary implications and as drug candidate leads.

Phytochemistry

Nrf2

Keap1

Canadian plants

disease prevention

xenobiotic metabolism

redox stress

indirect antioxidant

hormesis

stress response

quinone reductase

polyacetylene

phthalide

cannabinoid

hepa-1c1c7

bioassay-guided fractionation

RNA-seq

mass spectrometry

circular dichroism

NMR

liquid chromatography

FUNGICIDE TIMING, RESISTANCE MONITORING, AND PHYTOPATHOMETRY FOR FIELD CROP DISEASES IN INDIANA

Kaitlin G Waibel (15353782)

26 April 2023

<p>  </p> <p>Protecting crops from disease requires continuous research because plant pathogen incidence, geographical range, and pathogenicity, are constantly shifting variables as agronomic practices and climate continue to evolve. The objectives of this research are to i.) evaluate field-scale fungicide timing programs for corn (<em>Zea mays L.</em>) diseases at multiple locations in Indiana; ii.) evaluate field-scale fungicide timing programs for soybean (<em>Glycine Max</em> (L.) Merr.) diseases at multiple locations in Indiana; iii.) continue to identify, document, and confirm the distribution of populations of the soybean frogeye leaf spot pathogen (<em>Cercospora sojina)</em> that contain the G143A mutation conferring resistance to quinone outside inhibitor (QoI) fungicides in Indiana; and iv.) assess the incidence, severity, and prevalence of tar spot (<em>Phyllachora maydis</em>) in Indiana. For the first and second objectives, field scale trials were established at three locations in Indiana from 2019 to 2022. No application timings at any location provided significant yield protection for corn or soybeans. To achieve the third objective, 165 isolates of <em>C. Sojina </em>were tested. In total, 24 out of the 32 counties sampled in 2021 and 2022 were documented with QoI-resistance. The fourth objective was accomplished by surveying Indiana counties for incidence and severity of tar spot. As of 2022, 86 out of 92 Indiana counties have been confirmed for the presence of tar spot.</p>

Agronomy

Plant pathology

fungicide timing

Cercospora sojina

Phyllachora maydis

Tar spot of corn

Frogeye leaf spot

quinone outside inhibitor

QoI resistance

fungicide resistance detection

Phytopathometry

Gray leaf spot (GLS)

corn

soybean

corn diseases

soybean diseases

Zinc and ruthenium quinone diimine complexes: synthesis and photophysical properties

Dollberg, Christopher L.

17 February 2004

No description available.

Chemistry, Inorganic

Quinone Diimine Ligand

bqdi

nqdi

phi

Zinc

Ruthenium

Synthesis

Photochemistry

DNA Photocleavage

pH Dependence

Absorption

Emission

Photodynamic Therapy

Photo

Light Activation

Excited State

lifetime

Intra-Ligand-Charge-Transfer

ILCT

Synthesis and biological evaluation of novel chloroethylaminoanthraquinones with potent cytotoxic activity against cisplatin-resistant tumor cells

Pors, Klaus, Paniwnyk, Z., Patterson, Laurence H., Ruparelia, K.C., Hartley, J.A., Kelland, L.R.

January 2004

No / Novel 1- and 1,4-substituted chloroethylaminoanthraquinones with DNA binding and alkylating properties along with their respective hydroxyethylaminoanthraquinone intermediates were synthesized. Selected chloroethylaminoanthraquinones were shown to cross-link DNA and alkylate guanines (at low nM concentration) with a preference for reaction sites containing 5'-PyG. A compound (Alchemix) with the bis-chloroethyl functionality confined to one side chain alkylated but did not cross-link DNA. All the 1,4-disubstituted chloroethylaminoanthraquinones were potently cytotoxic (nM IC50s) against cisplatin-resistant ovarian cancer cell lines.

Platinum II Complexes

Alkylating agent

Organic chlorine compounds

Diamine

Aromatic amine

Quinone

Anthraquinone derivatives

Chemical synthesis

Ovary

Human

Cell line

In vitro

Cisplatin

Tumor cell

Resistance

Cytotoxicity

Antineoplastic agent

Structure activity relation

Studying the Role of Peroxiredoxin 1 in ROS Modulation and Drug Resistance / Etude du rôle de la Peroxiredoxine 1 dans la modulation redox et la résistance aux drogues anticancéreuses

He, Tiantian

04 July 2014

Les peroxyrédoxines sont des enzymes essentielles de la cellule. Outre leur rôle d’antioxydant, elles sont aussi des régulateurs de la signalisation cellulaire et des suppresseurs de tumeurs. La péroxiredoxine 1 (Prx1) est la plus abondante parmi les six isoformes de peroxyrédoxines humaines. Elle est fréquemment surexprimée dans plusieurs types de cellules cancéreuses, et on a pu associer Prx1 aux processus de carcinogenèse et de métastase, ainsi qu’à la résistance à la radiothérapie ou la chimiothérapie. Ainsi, Prx1 pourrait donc être une cible anticancéreuse intéressante. Au cours de ce travail de thèse, nous avons d’abord évalué l'impact d’une diminution de Prx1 (Prx1 knockdown (Prx1–)) sur la sensibilité cellulaire à des dizaines de médicaments anticancéreux dont la vinblastine, le taxol, la doxorubicine, la daunorubicine, l’actinomycine D, et le 5-fluorouracile, et d’agents connus pour provoquer la production d’espèces réactives de l’oxygène (ROS), dont le peroxyde d'hydrogène, le 2-phényléthyle isothiocyanate, le β-lapachone (β-lap) et la ménadione. Nous avons mis en évidence qu’une diminution de Prx1 augmente significativement la sensibilité des cellules à l'effet cytotoxique de la β-lap et de la ménadione, deux naphtoquinones possédant une activité anti-tumorale.Nous avons étudié les mécanismes responsables de l'augmentation de la cytotoxicité de la β-lap dans un contexte Prx1–. Nous montrons que la toxicité accrue de la β-lap dans des cellules Prx1– est due à une accumulation intracellulaire de ROS. Cet effet est dépendant de l’activité NADPH quinone oxydoréductase (NQO1) et s’accompagne d’une phosphorylation de c-Jun N-terminal kinases (JNK), protein 38 (p38), extracellular signal-regulated kinases (Erk) et des mitogen-activated protein kinases (MAPK), mais aussi d’une diminution des niveaux protéiques de la thiorédoxine 1. En se basant sur le fait que Prx1 est une enzyme antioxydante et un partenaire d'au moins ASK1 et JNK, deux éléments clés de la voie MAPK, nous proposons que la sensibilisation à la β-lap, observée après diminution de Prx1, est provoquée par une action synergique entre l'accumulation de ROS et l'induction de la voie MAPK, conduisant ainsi à l'apoptose.Nous avons ensuite étudié les mécanismes responsables de l'augmentation de la cytotoxicité de la ménadione dans le contexte Prx1–. La sensibilité accrue des cellules à l'effet cytotoxique de la ménadione et également associée à l'accumulation rapide et massive des ROS intracellulaire et à une mort cellulaire ressemblant à la nécrose programmée (necroptosis). L’accumulation de ROS induite par la ménadione et très rapidement détectée dans le cytosol, le noyau, et de façon encore plus importante, dans la matrice mitochondriale. Ce phénomène est en corrélation avec l'oxydation importante des thiorédoxine 2 et peroxiredoxine 3, deux protéines antioxydantes localisées dans la mitochondrie. La diminution de l’expression de Prx1 s’accompagne d’une augmentation des quantités tant de l’ARNm que de la protéine NRH: quinone oxydoréductase 2 (NQO2). Cette augmentation de l'activité de NQO2 est en grande partie responsable de l'accumulation intracellulaire de ROS et de la mort cellulaire après le traitement à la ménadione. Nos données révèlent que l’accumulation de ROS dans les cellules Prx1– provient de la résultante entre l’augmentation de leur production par NQO2 au cours du métabolisme de la ménadione et la diminution de leur élimination par Prx1. Enfin et de façon surprenante, selon la nature des naptoquinones (β-lap ou ménadione), les voies métaboliques qui conduisent à l'accumulation des ROS, ou les voies de signalisation et les mécanismes de mort cellulaire impliqués semblent être distincts. / Peroxiredoxins have multiple cellular functions as major antioxidants, signaling regulators, molecular chaperones and tumor suppressors. Peroxiredoxin 1 (Prx1) is the most abundant among the six isoforms of human peroxiredoxins. It is frequently over-expressed in various cancer cells, which is known associated with carcinogenesis, metastasis and resistance to radiotherapy or chemotherapy. Prx1 could thus be an interesting anticancer target. In this study, we first evaluated the impact of Prx1 knockdown (Prx1–) on cellular sensitivity to dozens of anticancer drugs including vinblastine, taxol, doxorubicin, daunorubicin, actinomycin D, and 5-fluorouracil, and of reactive oxygen species (ROS)-generating agents, including hydrogen peroxide, 2-phenylethyl isothiocyanate, β-lapachone (β-lap) and menadione. We observed that Prx1 knockdown significantly enhanced cancer cell sensitivity to β-lap and menadione, two naphthoquinones with anti-cancer activity.We first investigated the underlying mechanisms responsible for the specifically enhanced cytotoxicity to β-lap in a Prx1 knockdown context. Prx1 knockdown markedly potentiated β-lap-induced cytotoxicity through ROS accumulation. This effect was largely NAD(P)H:quinone oxidoreductase 1 (NQO1)-dependent and associated with the phosphorylation of c-Jun N-terminal kinases (JNK), protein 38 (p38) and extracellular signal-regulated kinases (Erk) proteins in mitogen-activated protein kinase (MAPK) pathways, and a decrease in thioredoxin 1 protein levels. Based on the fact that Prx1 is a major ROS scavenger and a partner of apoptosis signaling kinase 1 (ASK1) and JNK, two key components of MAPK pathways, we propose that Prx1 knockdown-induced sensitization to β-lap is achieved through the combined action of ROS accumulation and MAPK pathway activation, leading to cell apoptosis.We then investigated the underlying mechanisms responsible for the specifically enhanced cytotoxicity to menadione in Prx1– cells. Enhanced sensitivity to menadione was associated with a rapid and significant intracellular ROS accumulation and necroptotic-like cell death. Menadione-induced ROS accumulation occurred immediately in the cytosol, the nucleus, and even more noticeably in the mitochondrial matrix, correlated with significant oxidation of both mitochondria-localized thioredoxin 2 and peroxiredoxin 3. Prx1 knockdown significantly up-regulated mRNA and protein levels of NRH: quinone oxidoreductase 2 (NQO2). Increased activity of NQO2 was largely responsible for menadione-induced ROS accumulation and consequent cell death. Our data indicate that massive ROS accumulation results from the combined effect of increased ROS generation by higher NQO2 activity during menadione metabolism, and diminished Prx1 scavenging activity. Finally and noteworthy, the metabolic pathways that lead to ROS accumulation, downstream signaling pathways and cell death mechanisms appear to be distinct for β-lap and menadione.

Espèces réactives de l’oxygène

Péroxyredoxine 1

Β-lapachone

Ménadione

NADPH quinone oxydoréductase

NRH: quinone oxydoréductase 2

Thioredoxine 1

Thioredoxine 2

La mort des cellules cancéreuses

HyPer

Necropotose

Reactive oxygen species

Peroxiredoxin 1

Β-lapachone

Menadione

NAD(P)H:quinone oxidoreductase 1

NRH:quinone oxidoreductase 2

Thioredoxin 1

Thioredoxin 2

Mitogen-activated protein kinase

C-Jun N-terminal kinases

Extracellular signal-regulated kinases

Anti-cancer

HyPer

Redox western blot

Cell death

Necroptosis

Synthese nanostrukturierter, organisch-anorganischer Hybridmaterialien über Zwillingspolymerisation

Löschner, Tina

06 August 2013

Im Fokus dieser Arbeit stand die Methode Zwillingspolymerisation zur Synthese organisch-anorganischer Hybridmaterialien. Die simultane Zwillingspolymerisation wird als neues Konzept zur gezielten Herstellung homogener, nanostrukturierter Hybridmaterialien unterschiedlicher Zusammensetzung vorgestellt. Hierfür wurden die Zwillingsmonomere 2,2’-Spirobi[4H-1,3,2-benzodioxasilin] und 2,2 Dimethyl-4H-1,3,2-benzodioxasilin in einem Arbeitsschritt gemeinsam polymerisiert. Die erhaltenen Phenolharz-Siliciumdioxid/Dimethylsiloxan-Hybridmaterialien weisen aufgrund einstellbarer Syntheseparameter unterschiedliche Eigenschaftsprofile auf, die systematisch analysiert wurden. Die Charakterisierung der Produkte erfolgte mit Hilfe der Festkörper-NMR-Spektroskopie, Elektronenmikroskopie, DSC, TGA-MS, sowie durch Extraktionsversuche und die Erzeugung und Analyse poröser Materialien. Neben der simultanen Zwillingspolymerisation wird die Synthese, Charakterisierung und thermisch induzierte Polymerisation literaturunbekannter Silicium-Spiroverbindungen mit einfach- oder zweifach substituierter Salicylalkohol-Einheit beschrieben. Hierbei wurden nanostrukturierte Hybridmaterialien mit teils hohem löslichen Anteil erhalten. Die Produktbildung wird in Abhängigkeit von der Entstehung und Weiterreaktion gefundener Chinonmethid-Strukturen diskutiert.

Nanostrukturen

Zwillingspolymerisation

Organisch-anorganische Hybridmaterialien

DSC

Stickstoff-Physisorption

mesoporöse Materialien

mikroporöse Materialien

Silicium-Spiroverbindung

Phenolharz

Chinonmethid

nanostructure

twin polymerization

organic-inorganic hybrid material

DSC

nitrogen physisorption

mesoporous material

microporous material

silicon monomer

phenolic resin

quinone methide

ddc:540

Nanostruktur

Sol-Gel-Verfahren

Organisch-anorganischer Hybridwerkstoff

Differential scanning calorimetry

Physisorption

Siliciumdioxid

Siloxane

Phenoplast

Synthese nanostrukturierter, organisch-anorganischer Hybridmaterialien über Zwillingspolymerisation

Löschner, Tina

05 July 2013

Im Fokus dieser Arbeit stand die Methode Zwillingspolymerisation zur Synthese organisch-anorganischer Hybridmaterialien. Die simultane Zwillingspolymerisation wird als neues Konzept zur gezielten Herstellung homogener, nanostrukturierter Hybridmaterialien unterschiedlicher Zusammensetzung vorgestellt. Hierfür wurden die Zwillingsmonomere 2,2’-Spirobi[4H-1,3,2-benzodioxasilin] und 2,2 Dimethyl-4H-1,3,2-benzodioxasilin in einem Arbeitsschritt gemeinsam polymerisiert. Die erhaltenen Phenolharz-Siliciumdioxid/Dimethylsiloxan-Hybridmaterialien weisen aufgrund einstellbarer Syntheseparameter unterschiedliche Eigenschaftsprofile auf, die systematisch analysiert wurden. Die Charakterisierung der Produkte erfolgte mit Hilfe der Festkörper-NMR-Spektroskopie, Elektronenmikroskopie, DSC, TGA-MS, sowie durch Extraktionsversuche und die Erzeugung und Analyse poröser Materialien. Neben der simultanen Zwillingspolymerisation wird die Synthese, Charakterisierung und thermisch induzierte Polymerisation literaturunbekannter Silicium-Spiroverbindungen mit einfach- oder zweifach substituierter Salicylalkohol-Einheit beschrieben. Hierbei wurden nanostrukturierte Hybridmaterialien mit teils hohem löslichen Anteil erhalten. Die Produktbildung wird in Abhängigkeit von der Entstehung und Weiterreaktion gefundener Chinonmethid-Strukturen diskutiert.

info:eu-repo/classification/ddc/540

ddc:540