Efficient carbohydrate synthesis by controlled inversion strategies

Dong, Hai

January 2006

The Lattrell-Dax method of nitrite-mediated substitution of carbohydrate triflates is an efficient method to generate structures of inverse configuration. In this study it has been demonstrated that a neighboring equatorial ester group plays a highly important role in this carbohydrate epimerization reaction, inducing the formation of inversion compounds in good yields. Based on this effect, efficient synthetic routes to a range of carbohydrate structures, notably β-D-mannosides and β-D-talosides, were designed. By use of the ester activation effect for neighboring groups, a double parallel as well as a double serial inversion strategy was developed. / QC 20101111

Carbohydrate Chemistry

Carbohydrate Protection

Epimerization

Inversion

Dynamic

Regioselective Control

Neighboring Group Participation

Organic Chemistry

Organisk kemi

Synthesis of Substituted Pyrrolidines / Syntes av substituerade pyrrolidiner

Sjölin, Olof

January 2016

The task of medicinal chemists in a drug discoveryproject is to synthesize/design analogues to the screening hits, simultaneouslyincreasing target potency and optimizing the pharmacological properties.  This requires a wide selection of moleculesto be synthesized, where both synthetic feasibility and price of startingmaterials are of great importance. In this work, a synthetic pathway from cheapand readily available starting materials to highly modifiable 2,4-disubstitutedpyrrolidines is demonstrated. Previously reported procedures to similarpyrrolidines use expensive catalysts, requires harsh conditions and requiresnon-commercially available starting materials. The suggested pathway herein has demonstrated great possibility forvariation in the 4-position, including fluoro, difluoro, nitrile and alcoholfunctional groups. There are several areas in which the synthesis can beimproved and expanded upon. Improvements can be made by optimizing thedescribed reaction conditions and further expansion of possible modificationsin both 2- and 4-position could be explored.

Pyrrolidines

Multistep synthesis

Fragment-based drug design

Drug discovery

Organic chemistry

Organic Chemistry

Organisk kemi

Optimisation of expression of trypsin in a bioreactor : A study based on Design of Experiment

Rane, Tova

January 2022

In recent years, medical treatments against respiratory tract infections (RTIs) based on trypsin from Atlantic cod targeting the surface proteins on viral particles have been approved. However, the stability and compatibility in the human body of human trypsin would be expected to be greater than that from cod. In this study, the process of producing human trypsin recombinantly in E. coli in a fed batch bioreactor was optimised using a Design of Experiment (DOE) method with four 2-level factors and two responses. The factors considered were temperature, carbon source, induction time point and feeding rate, and the two responses were yield and purity. The study was done in 8 consecutive runs in the bioreactor, with controlled changes made to the factors for each run. The responses were measured and analysed for significance and optimisation of factors. The optimal settings for the highest yield with a purity of at least 80% were found to be at 18 °C, glucose based feed at a restricting feed rate and induction at a low OD600. Only the induction time has a significant effect on purity, and no factor had a stand-alone significant effect on yield. These findings provide a baseline for further studies on purification and further production of trypsin recombinantly in E. coli at a larger industrial scale. The highest yield achieved was 7.9 g trypsin per litre media, almost 80 times higher than comparable methods using shake flasks. However, the sample with over 80% purity was 6.3 g trypsin per litre media.

Chemical Process Engineering

Kemiska processer

Medical Biotechnology

Medicinsk bioteknologi

Organic Chemistry

Organisk kemi

Excited State Antiaromaticity Investigations of Pharmaceutically Relevant Heterocycles in Their Lowest ππ∗ and nπ∗ State

Lyvik, Amanda

January 2020

No description available.

Theoretical Chemistry

Teoretisk kemi

Organic Chemistry

Organisk kemi

Chemical Sciences

Kemi

Hydrogen peroxide oxidized starch and dextrin with retention of depolymerized small molecular mass fractions / Väteperoxid-oxiderad stärkelse och dextrin med kvarhållande av depolymeriserade fraktioner med låg molmassa

Chu, Victoria

January 2024

Trälim utgör en stor del av alla lim globalt och är avgörande för skapandet av träkompositmaterial, som många industrier och produkter är beroende av. Bland de vanligaste trälimmen använder flera formaldehyd som en väsentlig komponent i deras polymera struktur. Medan formaldehyd är ett allmänt använt, billigt och pålitligt material, är det också giftigt och har generellt ursprung från petroleumkällor. Ett ersättningsmaterial med di- eller polyaldehydisk funktionalitet av grönt ursprung är därför önskvärt för framtida trälimkemi. En potentiell lösning involverar att oxidera polysackarider såsom stärkelse och dextrin för att funktionalisera de upprepande glukosenheterna med aldehyder, ketoner och karboxylsyror. Här visas att Fenton-liknande förhållanden, med väteperoxid som oxidationsmedel och järn som katalysator, kan användas för att utföra reaktionen effektivt under atmosfäriska förhållanden, vilket producerar minimala biprodukter såsom vätgas, vatten och järnkomplex. Betydande funktionalisering observerades i en lågmolekylviktsfraktion som frigörs från polysackariden vid oxidation, en fraktion som traditionellt förloras under upparbetning via centrifugering. Detta arbete antyder att retention av denna lågmolekylviktsfraktion i produktblandningen kan förbättra framtida limegenskaper vid låg grad av oxidation i material med hög polymerisationsgrad, även om kvarhållande av depolymeriserade fraktioner från material med lägre polymeriseringsgrad, såsom dextrin, kanske inte ger de önskade polyaldehydiska produkterna i tillräckliga koncentrationer. Kvarhållandet av lågmolekylviktsfraktionen antyder också att stora mängder oxidationsmedel och katalysator bör undvikas, eftersom högre oxidationsgrad kan resultera i oönskade monofunktionella molekyler på grund av hög depolymerisation. / Wood adhesives comprise a large part of all adhesives globally and are essential in creation of wood composite materials, which many industries and products are entirely reliant on. Amongst the most common wood adhesives, several utilize formaldehyde as an essential component of their polymeric structure. While formaldehyde is a widely used, cheap and reliable material, it is also toxic, and generally derived from petroleum sources. A replacement with di- or poly-aldehydic functionality of green origin is therefore desirable for future wood adhesive chemistry. One potential solution involves oxidizing polysaccharides such as starch and dextrin, to functionalize the repeating glucose units with aldehydes, ketones, and carboxylic acids. Herein, it is demonstrated that Fenton-type conditions, using hydrogen peroxide as oxidant and iron as catalyst, can be used to perform the reaction efficiently in atmospheric conditions, producing minimal byproducts such as hydrogen gas, water, and iron complexes. Significant functionalization was observed in a small molecular weight fraction released from the polysaccharide upon oxidation, a fraction which is traditionally lost during workup via centrifugation. This work suggests that retention of this small molecular weight fraction in the product mixture may enhance future adhesive properties at low degrees of oxidation in materials with high degrees of polymerization, though retention of depolymerized fractions of lower chain length materials such as dextrin may not provide the targeted poly-aldehydic products in sufficient concentrations. The retention of the small molecular weight fraction also suggests that large amounts of oxidant and catalyst should be avoided, as higher degree of oxidation may result in undesired mono-functional molecules due to higher degrees depolymerization.

polysaccharides

oxidation

hydrogen peroxide

adhesives

carbonyl

polysackarider

oxidation

väteperoxid

lim

karbonyl

Organic Chemistry

Organisk kemi

Metal–organic frameworks for organic electrocatalysis

Torres Méndez, Carlos Enrique

January 2022

Metal–organic frameworks (MOFs) represent an important platform to immobilize and stabilize electroactive molecular catalysts due to their porosity, high surface area and well characterized three-dimensional structure. Most efforts in this area have been dedicated to the development of photocatalysts and traditional heterogeneous catalysts based on both precious and abundant transition metals. However, little work has been done to design nickel-based MOF electrocatalysts for organic synthesis. In this work we describe the synthesis of three linkers containing a bipyridine moiety, where two of the linkers are dicarboxylate extended linkers and one is a bispyrazole extended linker. The two dicarboxylate linkers are combined with zirconium clusters to build MOFs of the UiO-n family. The bispyrazole linker was used to synthesize copper-based MOFs. The developed MOFs function as support for the immobilization of nickel (II) species in isolated sites within the frameworks. Following this, the redox properties of these MOFs were studied by the means of electrochemistry. The structure of the organic linkers was confirmed by 1H NMR spectroscopy and mass spectrometry, and two of the linkers are new molecules never synthesized before. The synthesized MOFs were characterized by powder X-ray diffraction, where the MOFs of the UiO-n family showed small crystallite sizes. Similarly, the MOFs based on the bispyrazole linker showed low crystallinity. Metalation of the MOFs with a [Ni(phen)3]Cl2 complex was studied using UV-Vis spectroscopy and scanning electron microscopy, both techniques confirmed the immobilization of the nickel catalyst in the UiO-n MOFs. The electrochemical properties of the MOFs were studied using cyclic voltammetry. Both UiO-n MOFs showed a non-reversible event for the reduction of Ni(II) and the MOFs based on the bispyrazole linker showed a quasi-reversible event for the Cu(II)/Cu(I) couple.

Metal–organic frameworks

Electrochemistry

Catalysis

Organic linkers

UiO-66

Organic Chemistry

Organisk kemi

Homogeneous and heterogeneous Cp*Ir(III) catalytic systems : Mechanistic studies of redox processes catalyzed by bifunctional iridium complexes, and synthesis of iridium-functionalized MOFs

González Miera, Greco

January 2017

The purpose of this doctoral thesis is to investigate and develop catalytic processes mediated by iridium(III) complexes. By understanding the mechanisms, the weaknesses of the designed catalysts can be identified and be overcome in the following generation. The thesis is composed of two general sections dedicated to the synthesis and applications of homogeneous catalysts and to the preparation of heterogeneous catalysts based on metal-organic frameworks (MOFs). After a general introduction (Chapter 1), the first part of the thesis (Chapters 2-4, and Appendix 1) covers the use of several homogeneous bifunctional [Cp*Ir(III)] catalysts in a variety of chemical transformations, as well as mechanistic studies. Chapter 2 summarizes the studies on the N-alkylation of anilines with benzyl alcohols catalyzed by bifunctional Ir(III) complexes. Mechanistic investigations when the reactions were catalyzed by Ir(III) complexes with a hydroxy-functionalized N-heterocyclic carbene (NHC) ligand are discussed, followed by the design of a new generation of catalysts. The chapter finishes presenting the improved catalytic performance of these new complexes.    A family of these NHC-iridium complexes was evaluated in the acceptorless dehydrogenation of alcohols, as shown in Chapter 3. The beneficial effect of a co-solvent was investigated too. Under these base-free conditions, a wide scope of alcohols was efficiently dehydrogenated in excellent yields. The unexpected higher activity of the hydroxy-containing bifunctional NHC-Ir(III) catalysts, in comparison to that of the amino-functionalized one, was investigated experimentally. In the fourth chapter, the catalytic process presented in Chapter 3 was further explored on 1,4- and 1,5-diols, which were transformed into their corresponding tetrahydrofurans and dihydropyrans, respectively. Mechanistic investigations are also discussed. In the second part of the thesis (Chapter 5), a Cp*Ir(III) complex was immobilized into a MOF. The heterogenization of the metal complex was achieved efficiently, reaching high ratios of functionalization. However, a change in the topology of the MOF was observed. In this chapter, the use of advanced characterization techniques such as X-ray absorption spectroscopy (XAS) and pair distribution function (PDF) analyses enabled to study a phase transformation in these materials. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 3: Submitted.</p>

catalysis

bifunctional

metal-ligand cooperation

amine alkylation

Hammett

kinetics

acceptorless alcohol dehydrogenation

MOF

transition metal

synchrotron

Organic Chemistry

Organisk kemi

An Organic Electrochemical Transistor for Printed Sensors and Logic

Nilsson, David

January 2005

Conducting polymers entered the research field in late 70´s and efforts aimed at achieving printed electronics started a decade later. This thesis treats printable organic electrochemical transistors (OECT). Some conjugated polymers can be switched between a high conducting and a low conducting state in an electrochemical cell. In this thesis, the work carried out using poly(3,4-ethylenedioxythiophene) (PEDOT) as the active material in an electrochemical transistor is reported. The electrochemical transistors, presented, can be designed into a bi-stable and dynamic mode of operation. These transistors operates at voltages below 2V and current on/off ratios are typically 5000, but 105 have been reached. The transistor device can be built up from all-organic materials using common printing techniques such as with screen-printing. The bi-stable transistor can be combined with an electrochromic (EC) display cell to form a smart pixel circuit. Combining several of these smart pixels yield an actively addressed cross-point matrix display. From this an all-organic active matrix display printable on paper has been achieved. The OECT, combined with a resistor network was successfully used in inverter and logic circuits. One important feature of these organic electrochemical devices is that both ions and electrons are used as the charge (signal) carriers. This is of particular interest and importance for chemical sensors. By combining a proton-conducting electrolyte (Nafion®) that changes its conductivity upon exposure to humidity, a simple OECT humidity sensor was achieved. This proves the use of this OECT as the ion-to-electron transducer.

polymers

charge (signal) carriers

proton-conducting electrolyte (Nafion)

Organic chemistry

Organisk kemi

Optimering i organisk syntes : betingelser, system, syntesvägar

Hansson, Lars

January 1990

This thesis deals with different optimization problems encountered in organic synthesis. The use of response surface, sequential simplex and PLS techniques, for simultanious optimization of yield and suppression of side reactions is investigated. This is illustrated by an example of enamine synthesis, were a side reaction was a serious problem. The problem of efficient screening to find suitable catalysts and solvents in new reactions is also investigated. Here, the use of principal properties as selection criterion, is demonstrated with a new process for the silylation of a,ß-unsaturated ketones. The extension of the new method to bis silylation of 1,2- and 1,3-diketones is demonstrated. The total synthesis of (±)-geosmin is investigated by an approach aimed to reduce the number of necessary steps involved. The suggested strategy, is to find compatible solvents through several transformations in the sequence to accomplish one-pot multistep reactions. In this context an improved method for the preparation of 1,10-dimethyl-l(9)-octalone-2 was established. Comparison with previously reported total syntheses of (±)-geosmin was done. / digitalisering@umu

Optimization

Response surface method

PLS method

Silylation

Enolether

Unsaturated ketones

Diketones

Geosmin synthesis

Onepot procedure

Organic Chemistry

Organisk kemi

Palladium(II)-Catalyzed Oxidative Carbocyclization : Stereoselective Formation of C–C and C–B Bonds

Jiang, Tuo

January 2014

Transition metal catalysis has emerged as one of the most versatile methods for the selective formation of carbon–carbon and carbon–heteroatom bonds. In particular, oxidative carbon–carbon bond forming reactions have been widely studied due to their atom economic feature. This thesis has been focused on the development of new palladium(II)-catalyzed carbocyclization reactions under oxidative conditions. The first part of the thesis describes the palladium(II)-catalyzed oxidative carbocyclization-borylation and -arylation of enallenes. In these reactions, the (σ-alkyl)palladium(II) intermediate, which was shown previously to undergo β-hydride elimination, could be trapped in situ by organoboron reagents (B2pin2 and arylboronic acids) to form new carbon–boron and carbon–carbon bonds. Through these two protocols, a range of borylated and arylated carbocycles were obtained as single diastereomers in high yields. The second part deals with a palladium(II)-catalyzed oxidative diarylative carbocyclization of enynes. The reaction was proposed to start with a syn-arylpalladation of an alkyne, followed by insertion of the coordinated alkene. Subsequent arylation afforded a series of valuable diarylated tetrahydrofuran and tetrahydropyran products. The final part of the thesis advances the previously developed palladium(II)-catalyzed oxidative carbocyclization-borylation of enallenes in an enantioselective manner. C2-symmetric chiral phosphoric acids were used as the novel co-catalyst to trigger the enantioselective formation of intramolecular carbon–carbon bonds. By using this chiral anion strategy, a number of enallenes were converted to the borylated carbocycles with high to excellent enantioselectivity. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p>

Carbocyclization

Palladium catalysis

Oxidation

Enallenes

Enynes

Borylation

Arylation

Asymmetric Catalysis

Chiral Brønsted acids

Chiral anion

Organic Chemistry

Organisk kemi