Charakterizace nových chirálních separačních systémů pro použití v HPLC / Characterization of new chiral separation systems for HPLC

Vozka, Jiří

January 2014

The dissertation thesis is focused on the physico-chemical characterization of interaction mechanisms of chiral stationary phases based on derivatized cyclofructans. Correct interpretation of retention and enantiodiscrimination processes substantially facilitates the development and optimization of new enantioselective methods using cyclofructan-based chiral stationary phases. At first, the interaction mechanisms of three commercially available cyclofructan-based stationary phases were studied in normal-phase mode of liquid chromatography. Namely, systems using chiral stationary phases based on dimethylphenyl carbamate cyclofructan 7, R-naphtylethyl carbamate cyclofructan 6 and isopropyl carbamate cyclofructan 6 were studied. Linear free energy relationship model was used as a basic tool for characterization of interactions on the stationary phases. The mentioned model revealed that the main interactions contributing to retention in cyclofructan-based systems are hydrogen bond acidity and dipolarity/polarizibility, while dispersion interactions cause decrease of retention. The impact of oligosaccharide skeleton of the cyclofructan selector on the enantioselectivity was elucidated by the comparison with seemingly analogous cyclodextrin-based chiral stationary phases. Cyclofructan-based chiral...

chiral separation; chirální separace

New Chiral Aromatic Architectures

January 2016

acase@tulane.edu / The syntheses and structural characterization of 3-arylimino steroids, tribenzodecacyclene, hexabenzodecacyclene, and a new class of twisted chiral polycyclic aromatic compounds, the “hairpin furans” are described. In the hope of generating a new class of materials with large optical rotations, various arylamines were condensed with cholest-4-ene-3,6-dione (14) to give 3-arylimino steroids. These compounds possess moderately high specific rotations ([α]D ~ 300-800) and strong circular dichroism. One such derivative, 3-(4-methoxyphenylimino)cholest-4- en-6-one (15), crystallizes as the (E)-imine and upon dissolution undergoes mutarotation to an equilibrium mixture of (E)- and (Z)-isomers with a half-life of approximately 1 h at room temperature, as judged by both NMR spectroscopy and polarimetry. High-temperature, TiCl4-catalyzed, triple aldol condensations of aceanthrenone 26 and acenaphthacenone 27 gave tribenzodecacyclene 18 and hexabenzodecacyclene 19, respectively, in yields of 16% and 0.8%, respectively. Compound 18 is a red, crystalline solid that is stable under ordinary conditions; its X-ray structure reveals it to be a strongly pitched, C3-symmetric, molecular propeller. In contrast, the more highly strained compound 19 is a blue-black solid whose solutions are unstable to air and light. Its simple NMR spectra, as well as HDFT calculations, indicated that it is a D3-symmetric molecular propeller. The thermal reaction of two cyclopentadienones with 5,5’-binaphthoquinone or 6,6’-dimethoxy-5,5’-binaphthoquinone in refluxing nitrobenzene (210 °C) gives, in a single synthetic step that includes two Diels-Alder additions, two decarbonylations, and two dehydrogenations, giant biaryl bisquinones (compounds 42, 50, 52, 53 and 62). However, when two cyclopentadienones react with 6,6’-dimethoxy-5,5’- binaphthoquinone in nitrobenzene at higher temperatures (250-260 °C), the resulting products are molecular ribbons composed of two twisted aromatic systems fused to a heteropentahelicene (49, 51, and 54). These molecules are representatives of a new class of chiral polycyclic aromatic compounds, the “hairpin furans”. Interestingly, reheating a dimethoxy-substituted giant biaryl (e.g., 52) in nitrobenzene at 260 °C does not yield the corresponding hairpin furan, and the mechanistic studies indicate that some intermediate or byproduct of the synthesis of the giant biaryls is a reagent or catalyst necessary for the conversion of the dimethoxybiaryl to the furan. / 1 / Xin Geng

Aromatic

Chiral

Polycyclic

Chiral Calixarenes as Potential Enantiospecific Stationary Phases in Capillary Gas Chromatography

Hefley, Ronnie

January 2000

No description available.

Chemistry, General

chiral calixarene

Predicting the Spontaneous Chiral Resolution by Crystallization of a Pair of Flexible Nitroxide Radicals

Gourlay, Matthew D., Kendrick, John, Leusen, Frank J.J.

January 2008

No / The separation of racemates into pure enantiomers through crystallization is an important industrial process. This study provides further validation of a novel, predictive approach for spontaneous resolution in which crystal structure prediction simulations are used to explore the relative stabilities of racemic solids versus enantiopure solids. 2-(4-Hydroxyphenyl)-2,5,5-trimethylpyrrolidine-1-oxy (compound 1) has previously been shown to be a racemic conglomerate, while a similar compound, 2-(3-hydroxyphenyl)-2,5,5-trimethylpyrrolidine-1-oxy (compound 2), was not. A conformational search using the Dreiding force field revealed 10 conformational minima for compound 1, and 20 for compound 2. Atomic charges were calculated using unrestricted DFT B3LYP 6-311G** optimized structures, and a crystal structure prediction was performed using the Dreiding force field, considering all low-energy gas-phase conformations and all relevant space groups. Analysis of the predicted crystal structures suggests that compound 1 is a racemic conglomerate, but compound 2 is not. This is in agreement with the experimental evidence.

Spontaneous Chiral Resolution

Racemic compound versus conglomerate: concerning the crystal chemistry of the triazoylketone, 1-(4-chlorophenyl)-4,4- dimethyl-2-(1H-1,2,4-triazol-1-yl)pentan-3-one

Davey, R.J., Sadiq, G., Seaton, Colin C., Pritchard, R.G., Coquerel, G., Rougeot, C.

11 April 2014

No / The triazoylketone discussed in this paper crystallises from racemic solutions as a conglomerate. Here, we report the ternary phase diagram confirming the conglomerate behaviour of this molecule. Through computation we also explore the underlying reasons for the absence of a racemic compound in this system and the evident epitaxial crystallisation leading to crystals of almost racemic compositions but which retain the crystal structure of the pure enantiomer. / EU-project ‘IntEnant’, Integrated Synthesis and Purification of Enantiomers

Crystallisation

Chiral resolution

Conglomerates

Explorations with optically active, cage-annulated crown ethers.

Ji, Mingzhe

05 1900

A variety of optically active macrocyclic crown ethers that serve as "host" systems that are capable of differentiating between enantiomeric "guest" molecules during host-guest complexation have been prepared via incorporation of chiral elements into the crown ring skeleton. The ability of these crown ethers to recognize the enantiomers of guest salts, i.e., (+) a-methyl benzylamine and to transport them enantioselectively in W-tube transport experiments were studied. The ability of these crown ethers to perform as chiral catalysts in an enantioselective Michael addition was studied. The extent of asymmetric induction, expressed in terms of the enantiomeric excess (%ee), was monitored by measuring the optical rotation of the product and comparing to the literature value.

Crown ethers.

Chiral crown ethers

Michael addition

chiral recognition

Élaboration de cocristaux pharmaceutiques par procédés assistés au CO2 / Elaboration of pharmaceutical cocrystals by CO2-assisted processes

Neurohr, Clémence

04 December 2015

Pour l’industrie pharmaceutique, la conception de cocristaux permet de moduler les propriétés physico-chimiques de composés d’intérêt sans en altérer l’activité thérapeutique.Ces solides monophasés sont définis comme étant des structures comportant plusieurs espèces reliées entre elles par des liaisons faibles et neutres. Alors que la majorité des études de cocristallisation sont centrées sur la génération et la caractérisation de nouvelles phases, ce travail a eu pour objectif d’explorer une nouvelle méthode de fabrication de cocristaux, en utilisant des procédés assistés au CO2 supercritique. La possibilité de formerdes interactions entre composés de différentes natures par recristallisation au CO2antisolvant a été étudiée avec les versions discontinue GAS (Gaseous Anti-Solvent) et semicontinue SAS (Supercritical Anti-Solvent) sur deux systèmes: naproxène-nicotinamide et acétazolamide-théophylline. Le naproxène étant chiral, la cocristallisation à partir du mélange naproxène racémique-nicotinamide a également été abordée. Un cocristal connu etdeux phases cocristallines jamais observées, dont une racémique, ont pu être synthétisés.L’étude de l’influence de divers paramètres opératoires des procédés GAS et SAS, tels que la concentration de la solution initiale, le ratio des espèces ou le débit d’ajout de l’antisolvant,a permis une meilleure compréhension de la cocristallisation induite par CO2 supercritique.Les résultats ont montré que la pureté en cocristaux des poudres obtenues était influencée à la fois par la proportion de CO2 dans le mélange solution/CO2 et les concentrations des espèces en solution (contribution des équilibres thermodynamiques) mais également par l’homogénéité du réacteur de précipitation. / For the pharmaceutical industry, cocrystal design allows tuning physicochemical propertiesof an active compound without altering its therapeutic activity. These monophasic solidscontain two or more different species interacting by weak and neutral bonds. Whereas themajority of cocrystallization studies pertain to generation and characterization of newcocrystalline phases, this work was aiming at exploring a new way of cocrystal fabrication,using supercritical CO2-assisted processes. The possibility of interaction formation betweendifferent types of compounds when these are precipitated by antisolvent CO2 has beenstudied by the batch GAS (Gaseous Anti-Solvent) and the semi-continuous SAS(Supercritical Anti-Solvent) versions of the antisolvent method on two different molecularsystems: naproxen-nicotinamide and acetazolamide-theophylline. Naproxen being a chiralcompound, its cocrystallization with nicotinamide from a racemic mixture has also beenaddressed. A known naproxen-based cocrystal and a new racemic cocrystalline phase havebeen obtained thanks to the antisolvent precipitation. A new acetazolamide-theophyllinecocrystal has also been produced for the first time with the GAS process. The influence ofGAS and SAS operational parameters such as CO2 feed rate, species molar ratio andconcentrations in the initial solution, has been investigated to allow a better understanding ofthe mechanisms involved in supercritical CO2-induced cocrystallization. Results have shownthat purity in cocrystal of the produced powders is influenced by the CO2 composition of thesolution/antisolvent mixture and by the ratio and concentrations of the solutes(thermodynamic equilibria), but also by the homogeneity of the mixture in the precipitationchamber of the process.

Cocristal

CO2

Supercritique

Chiral

Cocrystal

CO2

Supercritical

Chiral

Br[o/]nsted Acid Catalyzed Asymmetric Allylation and Propargylation of Aldehydes

Jain, Pankaj

16 January 2014

Carbonyl allylation and propargylation reactions have been an important tool for the stereocontrolled formation of carbon-carbon bonds for synthetic chemists. The chiral homoallylic and homopropargylic alcohols obtained from these reactions serve as versatile intermediates for the synthesis of natural and pharmaceutical products. Over the past three decades and continuing on, various synthetic groups around the globe have directed their research towards the efficient synthesis of these chiral moieties. In spite extensive research, asymmetric allylation and propargylation reactions remain an enduring challenge in organic chemistry. Chapter 1 of this thesis describes the first phosphoric acid catalyzed asymmetric allylboration of aldehydes. We found that the BINOL-derived phosphoric acids can efficiently catalyze the allylation reaction under specific conditions. Homoallylic alcohols were obtained in high yields and enantioselectivities from a wide variety of substrates. The optimized conditions were also found to be effective towards crotylboration of aldehydes. Chapter 2 describes the extension of the Br[o/]nsted acid catalyzed allylboration methodology to the propargylation of aldehydes. Homopropargylic alcohols were obtained with high selectivities with TRIP-PA as the catalyst. Synthesis of various important synthetic scaffolds from these chiral alcohols is also presented. The mechanistic insights studied by research groups of Kendall Houk and Jonathan Goodman have been outlined in chapter 3. These studies show that the major isomer is formed via a transition state involving the hydrogen bonding interaction between the hydroxyl group of the catalyst and the pseudoaxial oxygen of the boronate, with a stabilizing interaction of the phosphoryl oxygen to the formyl hydrogen. These insights helped us in developing new and highly efficient boronates that are described in the next chapter.

Allylation

Asymmetric

Catalyst

Chiral

chiral phosphoric acid

propargylation

Organic Chemistry

Use of a Chiral Surfactant for Enantioselective Reduction of a Ketone

Davidson, Tammy A., Mondal, Kalyan, Yang, Xiaoye

15 August 2004

The influence of a chiral surfactant and a polymer-supported chiral additive on reduction of ketones using sodium borohydride will be described. Initial preparations involved methylation of (S)-leucinol to give (2S)-N,N-dimethyl-2-amino-4-methyl-1-pentanol (1) (67%). The chiral surfactant (2) was synthesized by reacting (1) with bromohexadecane (71%). The functionalized styrene for the polymer-supported chiral additive (5) was synthesized by reacting (1) with 4-vinylbenzyl chloride. Polymerization was carried out with 10% of the functionalized monomer (4), 5% cross-linking agent divinylbenzene, and 85% styrene with AIBN as the initiator. The activity of the chiral surfactant and polymeric additive were examined by using them as additives in a standard reduction of 2-pentanone with sodium borohydride to yield (R)- and (S)-2-pentanol (3) (20%). The resulting alcohol was analyzed by polarimetry (ee 9.5%) and also esterified with (2S)-methylbutyric acid prior to characterization by NMR. 13C NMR indicated an enantiomeric excess of 5.2% when the chiral surfactant was used, and 7% when the polymeric additive was used.

chiral alcohols

chiral surfactants

enantiomeric excess

organic reductions

Asymmetric induction of n4-iron diene complexes

Older, Jamie Edward John

January 2001

The use of tricarbonyliron chemistry in asymmetric synthesis is of increasing importance. With this comes the need for efficient and reliable techniques for the production of enantiopure starting materials. The methods currently available, although effective, are often long winded and wasteful. The development of a chiral hydride abstraction reagent analogous to the triphenylcarbenium species would be of great value in terms of improved yields and simplification of strategy. This thesis details the development of a system based around the dibenzosuberane frame-work. Two different chiral biases have been introduced to the structure leading to a potential double stereodifferentiation effect. Substitution of the 'backbone' of the structure has yielded enantiomeric excesses of up to 54%. The smaller, chiral aryl bias has given e.e.s in the region of 10%. Moreover the synthetic route to the backbone substituted examples has been greatly improved and is now suitable for use on a multigram scale.

547