Obtenção e caracterização de complexos ternários de Saquinavir, ß-ciclodextrina e polivinilpirrolidona / Preparation and characterization of the ternary complexes of the saquinavir, &#946-cyclodextrin and polyvinylpyrrolidone

Tercio Elyan Azevedo Martins

23 September 2008

O presente trabalho é composto por 4 capítulos distintos. No primeiro intitulado \"Ciclodextrinas: tecnologia para melhoria da solubilidade de fármacos pouco solúveis\" aborda-se uma revisão das ciclodextrinas e de seus derivados, como também a formação dos complexos de inclusão. No segundo capítulo, \"Obtenção e caracterização de complexos ternários de saquinavir, β-ciclodextrina e polivinilpirrolidona\", foram avaliadas condições que poderiam influenciar na obtenção dos complexos, tais como: tempo de agitação na formação dos complexos, proporção equimolar de fármaco e ciclodextrina, solvente para solubilização do fármaco e porcentagem de polímero hidrossolúvel, concluindo-se que as melhores condições para obtenção dos complexos são 48 horas de agitação, razão equimolar 1:2 e 1:4, água para solubilização do fármaco e acréscimo de1% de polímero ao sistema. O terceiro capítulo, \"Influência do método de secagem na obtenção de complexos ternários de saquinavir\", teve o objetivo de obter e caracterizar complexos ternários de saquinavir, β-ciclodextrina e polivinilpirrolidona pelos métodos de secagem em estufa e liofilização, bem como, comparar a influência dos métodos de obtenção na solubilidade do fármaco, chegando-se ao aumento de 44 vezes da solubilidade do fármaco quando na forma de complexo SAQ:βCD:PVP de proporção equimolar 1:2 obtido por liofilização. O quarto, \"Perfil de dissolução de cápsulas e comprimidos contendo complexos ternários de saquinavir, ciclodextrina e polivinilpirrolidona\", teve o objetivo de comparar o perfil de dissolução de cápsulas de gelatina dura e comprimidos contendo sistemas ternários SAQ:βCD:PVP, obtidos pelos métodos de secagem em estufa e liofilização e o produto referência (Fortovase®). Os resultados indicam que os perfis de dissolução das formas farmacêuticas contendo complexos liofilizados apresentaram melhores resultados de eficiência de dissolução e que as cápsulas liberam mais prontamente o ativo que os comprimidos. / The present study has 4 captions. The first is called \"Cyclodextrins: Technology to improve the solubility of the little soluble drugs\" show a review of the cyclodextrins and its derivates, as well the formations of inclusion complexes. At the second caption, \"Preparation and characterization of the ternary complexes of the saquinavir, &#946-cyclodextrin and polyvinylpyrrolidone\", were evaluated some conditions that could influence in an obtention of the complexes like stirring time at the formation of the complexes, equimolar ratio of the drug and cyclodextrin, solvent for the solubility of the drug and percentage of the hydrosoluble polymer concluding that the best conditions for the formation of the complexes are: 48 hours of the stirring, equimolar ratio 1:2 and 1:4, water to solubilize the drug and addition of 1% of the polymer in the system. The third caption, \"Influence of the drying method at the formation of the ternary complexes of the saquinavir\", had the aim to prepare and characterize ternary complexes of the saquinavir, &#946-cyclodextrin and polyvinylpyrrolidone by the method of drying in equipment and lyophilization, as well to compare the influence of the methods of the obtention at the solubility of the drug, reaching the increasing of 44 times the solubility of the drug when at the form of the ternary inclusion complex (SAQ:βCD:PVP) at the equimolar ratio 1:2 obtained by lyophilization. The fourth and the last caption, \"Dissolution rate of the capsules and tablets of ternary complex of the saquinavir, cyclodextrin and polyvinylpyrrolidone, had the aim to compare the dissolution profile of capsules of the hard gelatine and tablets of ternary complexes SAQ:βCD:PVP obtained by the method of drying in equipment and lyophilization and the reference product (Fortovase®). The results indicate that the dissolution profiles of the pharmaceutical forms of lyophilized complexes show better results of the efficience of the dissolution and that the capsules liberate more efficient the active than the tablets.

β-ciclodextrina

Complexos ternários

Farmacotécnica

Formas farmacêuticas

Perfil de dissolução

Saquinavir

Síndrome de imunodeficiência adquirida

Solubilidade (Farmacologia)

-Cyclodextrin

Acquired Immunodeficiency Syndrome

Dissolution rate

Pharmaceutical Forms

Pharmacotechnics

Saquinavir

Solubility (Pharmacology)

Ternary Complex

Elaboration des nanocristaux de cellulose fonctionnalisés pour la vectorisation d’agents anticancéreux et pour la transfection de gènes / Development of cellulose nanocrystals for the vectorization of anticancer drugs and for genes transf

Ndong ntoutoume, Gautier mark arthur

14 December 2015

La vectorisation et le ciblage d’agents anticancéreux représentent des axes de recherche majeurs au sein du LCSN. En effet, la plupart des molécules actives utilisées en thérapie anticancéreuse sont peu sélectives des tumeurs et sont toxiques pour les cellules saines. L’élaboration de nanobiomatériaux aptes à cibler spécifiquement les tumeurs par effet EPR mais également capables de les détruire par l’action de la drogue transportée s’avère capital. Le nanovecteur utilisé est élaboré à partir des nanocristaux de cellulose (CNCx) issus de l’hydrolyse acide du coton. Une première approche a consisté à élaborer la nanoplateforme thérapeutique suivant la technique. / Targeting and drug delivery are major areas of research within the LCSN. Indeed, most of the active molecules used in cancer therapy are not very selective against tumors and are toxic to healthy cells. The development of nanobiomaterials able to specifically target tumors by EPR effect but also capable of destroying them by the action of the drug transported turns capital. In this work we achieved the binding of triphenylphosphonium cation (to target the mitochondria), hydrophobic active ingredients and a nucleic acid on cellulose nanocrystals issued from the acid hydrolysis of cotton. The first therapeutic platform synthesized according to the technique.

Cancer

Vectorisation

Curcumine

Piperlogumine

Protoporphyrine IX

SiRNA

Nanoparticules

Nanocristaux de cellulose

Plateformes thérapeutiques

Cyclodextrine

Complexation

Polyéthylèneimine

Cancer

Vectorization

Curcumin

Piperlogumine

Protoporphyrin IX

SiRNA

Nanoparticles

Cellulose nanocrystals

Therapeutics plateforms

Cyclodextrin

Complexation

Polyethyleneimine

616.994 061

Study of the photodegradation and photostability of anti-cancer drugs in different media towards the development of both new actinometers and liquid formulations

Lee, Lok Yan

January 2016

This study aims at tackling some of the problems often encountered in photostability testing and liquid formulation development. Three anti-cancer drugs will be employed as models; Dacarbazine (DBZ) has well established photostability issues, Axitinib (AXI) and Sunitinib (SUT) are two new drugs only commercially available in solid dosage forms. In ethanol, the photokinetics of these drugs were well described by the newly proposed Φ-order kinetic mathematical model. This has confirmed the photoreversible character of AXI and SUT’s and unimolecular photoreaction of DBZ’s photodegradations. Also, the Φ-order kinetics is proven to describe them better than the usually used classic thermal reaction orders. In aqueous solution, the drugs were found to undergo thermal and photochemical complex degradations, involving at least 3 photoproducts. A new photokinetic approach has been proposed in this work to solving and unravelling the attributes of such complex mechanisms. For the first time, the quantum yields (QY) of the three drugs were determined and found to increase with irradiation wavelength. SUT’s QY were comparable in ethanol and water (QY460 = 0.02), DBZ was found to be more photoefficient in water (QY330 = 0.04 and 0.1, respectively) and AXI in water (QY330 = 0.06 and 0.03). Φ-order kinetics’ potential for the development of reliable actinometers of the three drugs, without prior knowledge of unknown reaction parameters, has also been established. A general equation to describe the isotherm of a (Gn:Hm) guest-host multicomponent complex was proposed in this work to palliate the lack of a strategy for characterising nanosponge-drug complexes. It provides information on both stiochiometry and association constant of the complex. The results indicate that hydrophobic AXI forms a 1:0.8 complex, indicating the possibility of multiple association sites and/or different types of binding. The newly developed AXI/nanosponge liquid formulation has significantly increased solubility (5000-fold) and thermal stability. Furthermore, the photostability of DBZ and SUT were considerably improved by using a strategy based on light-absorption competitors. Their initial velocities reduced from 10 and 3 s-1 (respectively) to 1 and 0.13 s-1. The successful application of these methods to the model anti-cancer drugs has set out new approaches that might be found useful for future treatments of photodegradation data, development of drug-actinometers and liquid formulations of drugs.

616.99

Étude de ligands de type biguanide dans le couplage de Suzuki-Miyaura dans l'eau

Fortun, Solène

12 1900

No description available.

Chimie verte

Catalyse dans l’eau

Couplage de Suzuki-Miyaura

Biguanide

Recyclage

Catalyse micellaire

Ligands de type pinceur

β-Cyclodextrine

Green chemistry

Catalysis in water

Suzuki-Miyaura coupling

Biguanide

Recycling

Micellar catalysis

Pincer-like ligands

β-Cyclodextrin

Biocatalytic Production, Preparation and Characterization of Large-ring Cyclodextrins

Mokhtar, Mohd Noriznan

26 January 2009

Cyclodextrins (CD) are cyclic oligosaccharides composed of six to more than sixty glucose units. Large-ring cyclodextrins (LR-CD) are novel CD comprised of more than eight glucose units with cavity structures and sizes different from that of commercially available CD₆ – CD₈. LR-CD may offer unique molecular recognition properties and can be produced biocatalytically from starch using cyclodextrin glucanotransferase (CGTase, E.C. 2.4.1.19) in a short reaction time. LR-CD were isolated from glucose, CD₆ – CD₈ and other compounds by complexation of CD₆ – CD₈ as well as precipitation techniques. The yield of LR-CD (degree of polymerization from 9 to 21) was optimized using central composite design. Addition of polar organic solvents to the synthesis resulted in higher yields of LR-CD. LR-CD composed of 9 to 21 glucose units were successfully separated using reversed-phase of ODS-AQ chromatography and normal-phase of polyamine II chromatography. Maintaining optimized reaction conditions aided in a high yield of CD₉; it could be separated with reasonable yield using a single step of polyamine II chromatography. A co-grinding method helped to obtain higher solubilization levels of glibenclamide, vitamin A acetate and vitamin D₃ in CD₁₃, CD₁₀ and CD₁₁, respectively when compared to other CD. Vitamin K₁ was solubilized in distilled water with CD₆ – CD₁₃ using a co-precipitation method. When compared with other CD, CD₉ was seen to be the best solubilizer. The analysis of complexes using ESI MS showed spironolactone and glibenclamide complexed with CD₉ and CD₁₃, respectively.

info:eu-repo/classification/ddc/570

ddc:570

Bacillus macerans

Molekulare Erkennung

Large-ring cyclodextrins (LR-CD)

central composite design

co-grinding

co-precipitation

cyclodextrin glucanotransferase (CGTase)

host-guest complexation

molecular recognition

supramolecular chemistry

Poly(Propylene imine)-based polyplexes for non-viral, targeted delivery of nucleic acids into PSCA-positive tumor cells

Jugel, Willi

17 January 2024

Delivery of siRNAs for the treatment of tumors critically depends on the development of efficient nucleic acid carrier systems. The complexation of dendritic polymers (dendrimers) results in nanoparticles, called dendriplexes, that protect siRNA from degradation and mediate non-specific cellular uptake of siRNA. However, large siRNA doses are required for in vivo use due to accumulation of the nanoparticles in sinks such as the lung, liver, and spleen. This suggests the exploration of targeted nanoparticles for enhancing tumor cell specificity and achieving higher siRNA levels in tumors. In this work, we report on the targeted delivery of a therapeutic siRNA specific for BIRC5/Survivin in vitro and in vivo to tumor cells expressing the surface marker prostate stem cell antigen (PSCA). For this, polyplexes consisting of single-chain antibody fragments specific for PSCA conjugated to siRNA/maltose-modified poly(propylene imine) dendriplexes were used. These polyplexes were endocytosed by PSCA-positive 293TPSCA/ffLuc and PC3PSCA cells and caused knockdown of reporter gene firefly luciferase and Survivin expression, respectively. In a therapeutic study in PC3PSCA xenograft-bearing mice, significant anti-tumor effects were observed upon systemic administration of the targeted polyplexes. This indicates superior anti-tumor efficacy when employing targeted delivery of Survivin-specific siRNA, based on the additive effects of siRNA-mediated Survivin knockdown in combination with scFv-mediated PSCA inhibition. Among non-viral vectors, cationic polymers, such as poly(propylene imine) (PPI), play also a prominent role in plasmid DNA delivery. However, limitations of polycationic polymer-based DNA delivery systems are (i) insufficient target specificity, (ii) unsatisfactory transgene expression, and (iii) undesired transfer of therapeutic DNA into non-target cells. We developed single-chain antibody fragment (scFv)-directed hybrid polyplexes for targeted gene therapy of prostate stem cell antigen (PSCA)-positive tumors. Besides mono-biotinylated PSCA-specific single-chain antibodies (scFv(AM1-P-BAP)) conjugated to neutravidin, the hybrid polyplexes comprise β cyclodextrin-modified PPI as well as biotin/maltose-modified PPI as carriers for minicircle DNAs encoding for Sleeping Beauty transposase and a transposon encoding the gene of interest. The PSCA-specific hybrid polyplexes efficiently delivered a GFP gene in PSCA-positive tumor cells, whereas control hybrid polyplexes showed low gene transfer efficiency. In an experimental gene therapy approach, targeted transposition of a codon-optimized p53 into p53 deficient HCT116p53-/-/PSCA cells demonstrated decreased clonogenic survival when compared to mock controls. Noteworthily, p53 transposition in PTEN-deficient H4PSCA glioma cells caused nearly complete loss of clonogenic survival. These results demonstrate the feasibility of combining tumor-targeting hybrid polyplexes and Sleeping Beauty gene transposition, which, due to the modular design, can be extended to other target genes and tumor entities.

info:eu-repo/classification/ddc/610

ddc:610

Towards an Integrated Water Quality Monitoring System Using Low Cost Electrochemical Sensors

Alam, Arif Ul

January 2019

The monitoring of pharmaceuticals, heavy metal, pH and free chlorine concentration in drinking water is important for public health and the environment. However, conventional laboratory-based analytical methods are labor-intensive, expensive, and time consuming. This thesis focuses on developing an integrated, highly sensitive, easy-to-use, and low-cost pharmaceuticals, heavy metal, pH and free chlorine sensing system for drinking water quality monitoring. A low-temperature, solution-processed modification of multi-walled carbon nanotubes (MWCNT) with β-cyclodextrin (βCD) on glassy carbon electrode is developed for detecting low levels of acetaminophen. The adsorption properties of βCD are combined with the high surface area of carbon nanotubes towards enhanced electrochemical sensing of acetaminophen with a limit of detection of 11 nM and linear range from 0.05-300 μM. Also, a systematic investigation is carried out using four types of modified MWCNT-βCD. A novel, one-step approach called Steglich esterification modified MWCNT-βCD results in large effective surface area, and fast electron transfer towards sensitive detection of acetaminophen and 17β-estradiol (E2, primary female sex hormone) in the range of 0.005–20 and 0.01–15 μM, with low detection limits of 3.3 and 2.5 nM, respectively. The similar MWCNT-βCD modified electrodes can also detect heavy metal ion (lead, Pb2+) with a limit of detection of <10 ppb. Low frequency noise behavior of these sensors are studied. A spin-coated Pd/PdO based pH sensor, and amine-modified carbon electrode-based free chlorine sensor are fabricated on a common substrate together with the pharmaceuticals and heavy metal sensors. A Wheatstone-bridge temperature sensor is fabricated based on silicon and PEDOT:PSS on another substrate. All the sensors are connected to an Arduino microcontroller based data acquisition system with a smartphone application interface. The integrated sensing system is easy-to-use, low-cost, and can provide accurate monitoring data with real drinking water samples. / Dissertation / Doctor of Philosophy (PhD) / Low-cost, easy-to-use, and sensitive monitoring system for pharmaceuticals, heavy metal, pH and free chlorine in drinking water is crucial for public health safety. In this thesis, we develop solution-based synthesis of multi-walled carbon nanotubes modified by β-cyclodextrin for electrochemical sensing of pharmaceuticals and heavy metal. The modification approaches are compared and characterized to analyze their electrochemical behavior and sensing performances. The developed sensors are highly sensitive toward the detection of acetaminophen (a widely used pain-killer) and estrogen hormone in drinking water. We also develop a modified spin-coating technique to deposit palladium/palladium oxide films for potentiometric pH sensor, a calibration-free free chlorine sensor based on modified carbon electrode, and a resistive temperature sensor. The developed pH, free chlorine and temperature sensors are highly sensitive, and stable with fast response time. All the sensors are integrated and interfaced with a custom-made and smartphone-controlled electronic readout system for accurate and on-site drinking water quality monitoring at low cost.

Electrochemical Sensors

Water Quality

Pharmaceuticals Sensor

pH Sensor

Free Chlorine Sensor

Heavy Metal Sensor

Integrated System

Lead Sensing

Carbon nanotubes

β-Cyclodextrin

Printed Circuit Board

Smartphone Application

Temperature Sensor

Integrated Sensors

Potentiometric Sensor

Potentiodynamic Sensor

Investigation of Graphene Oxide Based Multilayered Capsules/Films for Drugs Delivery And Antimicrobial Applications

Kurapati, Rajendra

January 2013

Polyelectrolyte multilayer capsules fabricated by layer-by-layer (LbL) self-assembly technique consistsing of core-shell structure have emerged as potential drug delivery systems along with their applications in micro-reactors, cosmetics, vaccines and antimicrobial coatings. Various ligands and stimuli responsive entities can be incorporated into the core and shell of the capsules for targeted delivery and/or controlled release applications. Though multilayer capsules have been studied extensively as delivery systems, their utility for encapsulation of hydrophobic drugs and multiple drugs have not been explored in detail so far. Application of traditional polyelectrolyte capsules has several limitations, which renders them inapplicable for encapsulation of multiple drugs, hydrophobic drugs and also for releasing drugs on demand without addition of the external photothermal agents such as metal nanoparticles into the shells of the capsules. Thus, in this thesis, an attempt has been made to develop novel multifunctional multilayered capsules to overcome the above mentioned limitations. We have formulated two novel methods to functionalize the core with cyclodextrin molecules and the shell of the capsules with two-dimensional material, graphene oxide (GO). The properties such as high surface area along with π bonds, broad NIR-absorption, superior photothermal conversion and antimicrobial activity of graphene oxide has been explored and it has been demonstrated that 2-D graphene oxide is unique compared to the regular polyelectrolytes. By functionalizing the shell of capsules with GO as one of the layer material, a simple and efficient way for encapsulating multiple drugs into core and shell of the capsules is achieved by utilizing the large surface area and amphiphilic nature of GO. Based on the unique optical absorption and photothermal conversion properties of GO, we have demonstrated a facile route for near-infrared (NIR)-laser triggered release with low laser power. In the second part, functionalization of the hollow core of the capsules has been functionalized using cylodextrin (CD)-incorporated CaCO3 porous sacrificial templates, where both CD-CaCO3 and CD-modified capsules are used as high efficient carriers for hydrophobic drugs. In the third part, synergistic antimicrobial therapy was achieved using composite graphene oxide/polymer LbL films by combining the intrinsic antimicrobial activity and photothermal conversion ability of graphene oxide and the results depicted superior antimicrobial activity towards E. coli. These composite films also can be used as efficient antimicrobial coatings on biomedical devices or implants. The thesis has been divided into five chapters based on the individual works. In Chapter 1, a brief review on the history of LbL self-assembly, mechanism of self-assembly along with factors affecting the process have been discussed. Followed by a brief discussion about the fabrication of multilayered hollow capsules (core-shell structure), their applications in drug delivery and fabrication of multifunctional multilayered capsules through core and shell have been discussed. Finally, recent developments in LbL self-assembly and multilayered hollow capsules using carbon based materials (fullerenes, carbon nanotubes and graphene oxide) and their biomedical applications have been presented. Chapter 2 deals with the study on fabricating multifunctional multilayered capsules for facile encapsulation of multiple drugs into the capsules, which is achieved by functionalizing the capsules with graphene oxide (GO) as one of the layer materials. The GO composite capsules exhibited unique permeability properties compared to traditional multilayered capsules made of two polyelectrolytes. Multiple drugs could be simultaneously encapsulated in the capsules in a simple and effective manner. These capsules were found to exhibit a “core-shell” loading property for encapsulation of dual drugs into the core and shell of the capsules respectively. In addition, the graphene oxide composite capsules showed excellent biocompatibility towards MCF-7 cells. This study is the first one that demonstrates the potential of hybrid polyelectrolyte capsules without the use of micelles or polymer-drug conjugates for multi-drug encapsulation. Chapter 3 deals with the development of a facile route for near-infrared (NIR)-light triggered release of encapsulated drugs from the multilayered capsules via incorporation of graphene oxide (GO) into layer-by-layer (LbL) assembled capsules without addition of any external additives such as metal nanoparticles (NPs) or carbon nanotubes (CNTs) into the shells of the capsules. Till now, there is no report on light-responsive drug delivery system by utilizing the NIR-optical absorption properties of GO. Here, graphene oxide (GO) plays a dual role, serving as a structural component of LbL capsules as well as strong NIR-light absorbing agent, which efficiently converts absorbed light into heat. Upon NIR-laser irradiation, the microcapsules were opened in “point-wise fashion” due to local heating caused by laser irradiation. The rupturing mechanism of the capsules has been clearly demonstrated using confocal fluorescence microscopy and high resolution transmission electron microscopy. The light-triggering ability of these capsules has been applied successfully to release the encapsulated anticancer drug, doxorubicin. Chapter 4 deals with simple and versatile simple routes for encapsulation of model hydrophobic drug. Encapsulation of hydrophobic drugs in pharmaceutical industries is always a big challenge due to limited number of available drug carrier systems and poor aqueous solubility of hydrophobic drugs. Here, by combining the special properties of cyclodextrins (CDs) with biodegradable inorganic calcium carbonate microparticles, the hybrid CD-CaCO3 mesoporous microparticles have been prepared for the first time. These CD-CaCO3 microparticles were utilized as sacrificial templates to prepare CDs-modified LbL capsules. We have demonstrated that both the hybrid CD-CaCO3 microparticles and CDs-modified capsules are potential carriers for encapsulation of model hydrophobic drugs (self-fluorescent coumarine and nile red dyes) with high loading efficiency using supramolecular host-guest interaction between entrapped CDs and hydrophobic dye molecules. Compared with other inorganic drug carrier systems (mesoporous silica), CaCO3 porous particles have better biocompatibility, biodegradability and cost-effective and without use of any organic solvents. Both these hybrid CD-CaCO3 microparticles and CDs-modified capsules can be good candidates for encapsulation of hydrophobic drugs without involving extreme chemical conditions for fabrication. Chapter 5 deals with development of facile synergistic method for killing pathogenic bacteria by combining the intrinsic antimicrobial activity of graphene oxide (GO) and unique photothermal conversion property of GO into a single material. We fabricated composite LbL films of graphene oxide (GO) and poly(allylamine hydrochloride) (PAH) films. Antimicrobial activity of these GO composite films has been studied using Escherichia coli (E. coli) cells by varying number of deposited layers on glass slides (20 to 80 layers) and results suggest that by increasing the number of deposited layers, antimicrobial activity is also increased gradually. Based on the unique optical properties of GO, photothermal therapy have been carried out for killing of E. coli using GO composite films by varying number of deposited layers (20 to 80 layers) by irradiation of NIR-pulse laser at 1064 nm wavelength (Nd:YAG, 10 ns pulse, 10 Hz). The photothermal results revealed the enhanced antimicrobial activity compared to GO composite films alone without NIR-laser irradiation. The synergistic photothermal killing ability along with intrinsic antimicrobial activity of GO films results in much faster killing compared to films alone.

Graphene Oxide Multilayered Capsules

Polyelectrolyte Multilayer Capsules

Drug Delivery

Hydrophobic Drugs

Antimicrobial Therapy

Hydrophobic Drug Encapsulation

Graphene Oxide Multilayered Films

Graphene Oxide Multilayered Capsules

Graphene oxide Based Multilayer Capsules

Materials Engineering

Substances dangereuses dans les effluents de traitement de surface : identification et traitement par des procédés innovants / Hazardous substances in surface treatement effluents : identification and treatement using innovative processes

Euvrard, Élise

18 November 2016

Le secteur industriel du traitement de surface (TS), secteur d’excellence en Bourgogne Franche-Comté, est contraint de recourir à de nouvelles méthodes d’épuration des eaux du fait d’une règlementation européenne de plus en plus stricte. En effet, notamment dans le cadre de la Directive Cadre sur l’Eau, les industriels doivent sans cesse améliorer la qualité de leurs rejets et diminuer les impacts générés par ceux-ci. Ce travail de thèse s’inscrit dans cet objectif. Ainsi, trois grands types d’investigations ont été menés : le premier a permis de définir la composition qualitative et quantitative en substances dangereuses (SD) des rejets de TS et d’étudier leur variabilité temporelle ; le second a validé des modifications d’une station physico-chimique de traitement des eaux franc-comtoise pour diminuer le flux de SD ; le dernier a proposé des solutions innovantes par bioadsorption sur des matériaux de cyclodextrine et par procédé d’oxydation avancée (POA) soit par ozone/UV, soit par l’utilisation de catalyseurs Pd-Cu pour atteindre le même objectif.[...] / The industrial sector of surface treatment (ST), sector of excellence in Bourgogne Franche-Comté, is forced to resort to new methods for water treatment due to European regulations increasingly strict. Indeed, particularly in the context of the Water Framework Directive, industries must continually improve the quality of their discharge waters and reduce the impacts generated by them. This work is part of this. Thus, three types of investigations were conducted: the first has defined qualitative and quantitative composition of hazardous substances (HS) in ST discharge waters and study their temporal variability; the second has approved changes in a physicochemical wastewater decontamination station to decrease HS water flow; the last proposed innovative solutions by biosorption on cyclodextrin materials and advanced oxidation process (AOP) by ozone / UV, or by the use of Pd-Cu catalysts to achieve the same objective.[...]

Traitement de surface

Règlementation

Rejet industriel

Métaux

HAPs

Alkylphénols

Cyclodextrine

Bioadsorption

Catalyse

POA

Abattement

Mécanismes

Hydrocarbures aromatiques polycycliques

Procédé d’oxydation avancée

Surface treatment

Regulation

Industrial discharge waters

Metals

PAHs

Alkylpenols

Cyclodextrin

Biosorption

Catalysis

AOP

Advanced oxidation process

Polycyclic aromatic hydrocarbons

Removal

Mechanisms

577.6

Využití vysokoúčinných separačních metod pro chirální i achirální separace / The application of high-efficiency separation methods for chiral and achiral separations

Šubová, Martina

January 2019

In the first part of the doctoral thesis, the capillary electrophoresis was used to test the potential chiral separation properties of monosubstituted cyclodextrin derivatives, namely PEMEDA- and PEMPDA-β-cyclodextrins for the group of selected analytes. Both selectors exhibited excellent enantioseparation properties for N-boc-D,L-tryptophan, where the enantiomers were completely separated even at 0.5 mmol·l-1 concentration of the cyclodextrin derivative in the background electrolyte. However, the differences between the enantiodiscrimination properties of individual derivatives were minimal. The second test group consisted of two cyclodextrin derivatives, namely 2-O- and 3-O- cinnamyl-α-cyclodextrins. These derivatives are able to form supramolecular polymers in aqueous solutions that disintegrate at elevated temperature. The formation of these polymers was tested by NMR and DLS experiments. None of the tested cyclodextrin derivatives showed enantiodiscrimination properties towards a group of selected analytes. In the frame of antipredatory study, HPLC-MS/MS method working in HILIC mode was used for separation of ten pterin derivatives and riboflavin, which can be present as pigments in insects, reptiles or amphibians as a part of their warning coloration. The developed methodology was applied for...