Kinetics Studies of Substituted Tungsten Carbonyl Complexes

Wang, I-Hsiung, 1950-

08 1900

Thermal reactions and flash photolysis are used to study the olefin bond-migration promoted by tungsten carbonyls. Substitution of piperidine (pip) by 2- allylphenyldiphenylphosphine (adpp) in the cis-(pip)(η^1- adpp)W(CO)-4 complex was investigated, and no olefin bond-migration was observed. This suggests that a vacant coordinated site adjacent to the coordinated olefin is an essential requirement for olefin bond rearrangement. The rates of olefin attack on the photogenerated coordinatively unsaturated species, cis-[(CB)(η^1-ol- P)W(CO)-4] (CB = chlorobenzene, p-ol = Ph-2P(CH-2)-3CH=CH-2; n = 1-4) were measured. Kinetics data obtained both in pure CB and in CB/cyclohexane mixtures support a dissociative mechanism in which the W-CB bond is broken in the transition state. In contrast to results observed in studies of other related systems, no olefin bond-migration is noted. This observation is attributed to P-W coordination at all stages of the reaction, which precludes formation of a reactive intermediate containing a vacant coordination site adjacent to a P-ol bond.

Alkenes.

Carbonyl compounds.

Organotungsten compounds.

Chemical bonds.

thermal reactions

flash photolysis

olefin bond-migration

tungsten carbonyls

piperidine

Photochemistry of Ester Azides and Vinyl Azides In Solution, Solid State and In Cryogenic Matrices

Ahmed, Noha

January 2022

No description available.

Organic Chemistry

Photochemistry

Vinyl azides

Ester azides

Photo-dynamic behavior

Mechanical activity in organic crystals

Photolysis of organic azides

Understanding the Factors That Control Increased Photo-reactivity and Selectivity Of Vinylic And Aromatic Azides

Osisioma, Onyinye

22 October 2020

No description available.

Physical Chemistry

photochemistry

triplet vinyl nitrene

wavelength dependent reactivity

laser flash photolysis

temperature dependent reactivity

matrix isolation of vinyl azide

Acetone-LIF at Elevated Pressure and Temperature for 282nm Excitation: Experiments and Modeling

Hartwig, Jason William

January 2010

No description available.

Aerospace Materials

Engineering

Mechanical Engineering

acetone

laser induced fluorescence

LIF

tracer

high pressure

high temperature

optimization

pyrolysis

photolysis

oxygen quenching

Reaction Mechanism and Detection of Elusive C, N, and O Centered Radicals and Intermediates in Solution and Solid State

Sarkar, Sujan K.

January 2015

No description available.

Organic Chemistry

Solid State Kinetics

Vinyl Nitrene

Laser Flash Photolysis

Photoremovable Protecting Group

ESR Spectroscopy

Matrix Isolation

Laser Flash Photolysis and Computational Studies of Ortho-Substituted Arylnitrenes, Arylchlorocarbenes, and Triplet Riboflavin Tetraacetate

Tsao, Meng-Lin

11 March 2003

No description available.

Chemistry, Organic

Laser Flash Photolysis

Time-Resolved Infrared Spectroscopy

Computational Chemistry

Reactive Intermediates

Phenylnitrene

Chlorophenylcarbene

Triplet Riboflavin

[en] REMOVAL OF CLONAZEPAM FROM WATER FOR HUMAN USES BY ADVANCED OXIDATION PROCESSES (AOPS) / [pt] REMOÇÃO DO CLONAZEPAM EM ÁGUAS PARA CONSUMO HUMANO POR PROCESSOS OXIDATIVOS AVANÇADOS (POAS)

KLAUS PIAIA KIFFER

04 February 2021

[pt] O presente trabalho tem por objetivo analisar a degradação do fármaco Clonazepam (CZP), um dos remédios controlados mais vendidos no mundo e um possível contaminante emergente das águas residuais e de superfície. Foi realizada a degradação do composto a partir da fotólise UVC do peróxido de hidrogênio, das reações de Fenton fotoassistida (Foto-Fenton) por lâmpadas UVA, UVC, e por radiação solar, assim como pelo Sistema H2O2/Óxidos de Ferro, para efeito de comparação. Todas as análises foram conduzidas por cromatografia líquida de alta eficiência (CLAE) com detector UV. Os resultados alcançaram conversões acima de 85 por cento em boa parte dos experimentos e indicaram a cinética, em sua maioria, com ordem aparente próxima a 2 e k igual 0,95 mg. L-1. min-1 no Foto-Fenton UVC e k igual 0,02 mg.L-1.min-1 no Sistema H2O2/Óxidos de Ferro. Além disso, foi feita a análise de toxicidade utilizando sementes de alface para o H2O2/Óxidos de Fe, a fotólise UVC e para o Foto-Fenton com lâmpada UVC, com valores de inibição de crescimento de até 44 por cento. / [en] The present work aims at analyzing the degradation of the drug Clonazepam (CZP), one of the best-selling controlled drugs in the world and a possible emerging contaminant of surface and wastewater. Compound degradation was performed by UVC photolysis of hydrogen peroxide, photo-assisted Fenton reactions (Photo-Fenton) by UVA, UVC lamps, and solar radiation, as well as by the H2O2/Iron Oxides System for comparison purposes. All analyses were conducted by high performance liquid chromatography (HPLC) with UV detector. The results reached conversions above 85 percent in most of the experiments and indicated the kinetics, mostly, with apparent order close to 2 and k equal 0.95 mg. L-1. min-1 in Photo-Fenton UVC and k equal 0.02 mg.L-1.min-1 in H2O2/Iron Oxides. In addition, toxicity analysis was carried out using lettuce seeds for H2O2/Iron Oxides, UVC photolysis and UVC lamp Photo-Fenton, with growth inhibition values of up to 44 percent.

[pt] CLONAZEPAM

[pt] FOTOLISE

[pt] SISTEMA H2O2 - OXIDOS DE FERRO

[pt] FOTO-FENTON

[en] CLONAZEPAM

[en] PHOTOLYSIS

[en] H2O2 IRON - OXIDES SYSTEM

[en] PHOTO-FENTON

Hydrogen Abstraction by the Nighttime Atmospheric Detergent NO3·: Fundamental Principles

Paradzinsky, Mark

10 June 2021

The nitrate radical (NO3·) was first identified as early as the 1881, but its role in atmospheric oxidation has only been identified within recent decades. Due to its high one-electron reduction potential and its reactivity toward a diverse set of substrates, it dominates nighttime atmospheric oxidation and has since been the subject of much work. Despite this, studies on NO3· hydrogen atom transfer reactions have been somewhat neglected in favor of its more reactive oxidative pathways. The first section of the dissertation will highlight the role of substrate structure, solvent effects, and the presence of a polar transition state on NO3· hydrogen abstractions from alcohols, alkanes, and ethers. In this work the acquisition of absolute rate constants from previously unexamined substrates was analyzed alongside a curated list of common organic pollutants degraded through hydrogen atom abstraction. It was found that NO3· reacts with low selectivity through an early polarized transition state with a modest degree of charge transfer. Compared to the gas-phase, condensed-phase reactions experience rate enhancement—consistent with Kirkwood theory—as a result of the polarized transition state. These insights are then applied to abstractions by NO3· from carboxylic acids in the next section. It was found that the rate constants for abstraction of α-carbons were diminished through induction by the adjacent carbonyl compared to the activation seen for the aforementioned substrates. The deactivation of abstraction by the carbonyl was found to be dramatically reduced as the substrate's alkyl chain was lengthened and/or branched. This apparent change in mechanism coincides with hydrogen abstraction of the alkyl chain for sufficiently large carboxylic acids and rules out the possibility of concerted bond breaking elsewhere in the molecule. Finally, the dissertation will cover some additional projects related to the overall nature of the work including examination of the kinetics of radical clock systems when complexed with metal ions and the examination of a highly oxidative biosourced monomer. / Doctor of Philosophy / The nitrate radical (NO3·) was first identified as early as the 1881, but its role in the breakdown of atmospheric pollutants has only been identified within recent decades. Operating primarily at night, NO3· serves as a major atmospheric oxidant—it breaks down pollutants by reactions that involve the removal of electrons from those substrates. This chemistry is particularly important in understanding the consequences of an increasingly industrialized world and the subsequent short-term health and environmental implications. Geographically, these reactions will occur in large concentrations near locations that contribute greatly to atmospheric pollution, such as above coal-powered plants, heavily industrialized areas, above the canopy of large forests, and immediately behind the engines of airplanes as they move through the sky. The proximity of these locations to large population centers has caused the pollutants to greatly impact human health. These contaminants have been linked to several of the leading global causes of death, such as ischemic heart disease, stroke, and respiratory illnesses. The first section of the dissertation will focus on the role of pollutant structure, the medium in which the reaction occurs, and the development of a charged complex when NO3· reacts with alcohols, alkanes, and ethers. These substrates are often found as the result of incomplete combustion when burning fuel or as products of even more sustainable biodiesels. In this work the exact rate constants were found for substrates that were previously unexamined and compared with similar known reaction rates. It was found that NO3· has a low preference for what it reacts with and passes through a modestly charged complex early in the reaction. Compared to gaseous reactions, reactions in a liquid environment proceed faster due to the formation of a charged complex. This was then applied to reactions with carboxylic acids in the next section. Carboxylic acids are often found in large concentrations above the canopy of large forests resulting from the oxidation of isoprenes that are naturally released from broad-leaf trees. It was found that these reactions were slower than reactions with alkanes as the development of the charged complex was inhibited due to the presence of an adjacent dipole. When the carboxylic acid was longer and/or more branched, the formation of the charged complex was no longer inhibited as the reaction site moved further from the dipole. A change in reaction pathway was observed when the acids were sufficiently large. This ruled out the possibility of the reaction occurring simultaneously with a fracturing and rearrangement elsewhere. Finally, the dissertation will cover some additional projects that share some overlap with the work already described including the study of the rates of radical clock systems in the presence of metal ions and the study of naturally sourced monomers that are prone to losing electrons.

nitrate radical

laser flash photolysis

kinetics

polar transition state

polarized transition state

hydrogen atom transfer

solvent effects

hydrogen bonding

Hydrogen-Abstraction, Energy Transfer and Exciplex Formation in Photoactive Systems Based on Bile Acids

Miró Richart, Paula

16 May 2016

[EN] Bile acids are a family of amphiphilic steroids that play a pivotal role in physiological functions such as elimination of cholesterol or solubilization of lipids. Chemically, they share a steroidal skeleton with an unusual cis fusion between rings A and B, a short lateral chain ending in a carboxylic acid moiety and different number of hydroxyl groups on the alpha-face. Hence, bile acids offer a versatile architecture that can be used to investigate photophysical processes of interest such as hydrogen atom transfer, through-bond energy trasfer, through-bond exciplex formation and DNA photodamage-related reactions. First, unmodified bile acids have been used to evaluate hydrogen atom trasfer to benzophenone-like triplet carbonyls. Dehydrogenation of bile acids at positions C-3 and/or C-7 by a radical-mediated mechanism from the excited state of benzophenone has been demonstrated. Moreover, synthesized lithocholic acid derivatives including benzophenone or carbazole as donors and a naphthalene, biphenyl or thymine as acceptors have been employed to investigate through-bond energy transfer and exciplex formation processes. Thus, energy transfer from benzophenone to naphthalene or biphenyl and extended through-bond exciplex formation in benzophenone/naphthalene and benzophenone/biphenyl linked systems has been demostrated by laser flash photolysis. Finally, bile acid derivatives incorporating one benzophenone and two thymine units with different degrees of freedom have been prepared to investigate the photochemical formation of oxetanes or thymine dimers. Photosensitized formation of cyclobutane pyrimidine dimers through the generation of a delocalized triplet excited state has been demonstrated in intermolecular systems, while oxetane formation is observed when the degrees of freedom are reduced. / [ES] Los ácidos biliares son una familia de esteroides anfifílicos que juegan un papel clave en diferentes funciones fisiológicas tales como la eliminación del colesterol o la solubilización de lípidos. Su estructura química está constituida por un esqueleto esteroideo con una fusión cis poco común entre los anillos A y B, una cadena lateral corta que termina con una función ácida y un número variable de grupos hidroxilo en la cara alfa. Por tanto, los ácidos biliares ofrecen una estructura versátil que puede ser utilizada para investigar procesos fotofísicos de interés como abstracción de hidrógeno, transferencia de energía y formación de exciplejos a larga distancia o reacciones relacionadas con el daño fotoinducido al ADN. En esta Tesis, en primer lugar, los ácidos biliares naturales se han utilizado para evaluar la abstracción de hidrógeno a carbonilos triplete en compuestos derivados de la benzofenona, demostrándose la deshidrogenación de los ácidos biliares en las posiciones C-3 y/o C-7 por un mecanismo radicalario desde el mencionado triplete de la benzofenona. En segundo lugar, se han preparado derivados de ácido litocólico que incluyen los dadores benzofenona o carbazol y los aceptores naftaleno, bifenilo o timina, que a continuación se han utilizado para investigar los procesos de transferencia de energía y formación de exciplejo intramolecular a larga distancia. De hecho, en los sistemas benzofenona/naftaleno y benzofenona/bifenilo, se demostró por fotólisis de destello láser la transferencia de energía desde benzofenona a naftaleno o bifenilo y la formación de exciplejo a larga distancia. Por último, se han preparado derivados de ácidos bliares que incorporan una unidad de benzofenona y dos de timina en diferentes posiciones del esqueleto para investigar la influencia de los diferentes grados de libertad en la formación fotosensibilizada de oxetanos o dímeros de timina. Gracias a ellos, se ha demostrado la formación fotosensibilizada de dímeros ciclobutánicos pirimidínicos a través de la generación de estados excitados triplete deslocalizados en sistemas en los que la benzofenona es intermolecular, mientras que se observa formación de oxetanos cuando los grados de libertad se ven reducidos. / [CA] Els àcids biliars són una família d'esteroides anfifílics que juguen un paper clau en funcions fisiològiques com l'eliminació del colesterol o la solubilització de lípids. La seua estructura química està constituïda per un esquelet esteroïdal amb una fusió cis entre els anells A i B poc comuna, una cadena lateral curta que acaba amb una funció àcida i un nombre diferent de grups hidroxil en la cara alfa. D'aquesta manera, els àcids biliars ofereixen una estructura versàtil que pot ser utilitzada per investigar processos fotofísics d'interès com abstracció d'hidrogen, transferència d'energia i formació de exciplexes a llarga distància o reaccions relacionades amb el dany a l'ADN induït per llum. En primer lloc, els àcids biliars naturals s'han utilitzat per avaluar la abstracció d'hidrogen a carbonils triplets derivats de la benzofenona, demostrant-se la deshidrogenació dels àcids biliars en les posicions C-3 i/o C-7 per un mecanisme radicalari des de l'estat excitat de la benzofenona. A més, derivats d'àcid litocòlic que inclouen els donadors benzofenona o carbazol i els acceptors naftalé, bifenil o timina s'han utilitzat per investigar els processos de transferència d'energia i formació de exciplexe a llarga distància. En els sistemes benzofenona /naftalé i benzofenona/bifenil la fotòlisis làser va demostrar la transferència d'energia des de benzofenona a naftalé o bifenil i la formació d'exciplexe a llarga distància. Finalment, per tal d'investigar la formació fotosensibilitzada d'oxetans o dímers de timina, s'han preparat derivats d'àcids bliars que incorporen una unitat de benzofenona i dues de timina amb diferents graus de llibertat. La formació fotosensibilitzada de dímers ciclobutànics pirimidínics mitjançant la generació d'estats excitats triplet deslocalitzats ha estat demostrada en sistemes intermoleculars, mentre que la formació d'oxetans s'observa quan els graus de llibertat es veuen reduïts. / Miró Richart, P. (2016). Hydrogen-Abstraction, Energy Transfer and Exciplex Formation in Photoactive Systems Based on Bile Acids [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/64084

Bile Acid

Cyclobutane Pyrimidine Dimer

Energy Transfer

Exciplex

Hydrogen Abstraction

Laser Flash Photolysis

Oxetane

Through-Bond

QUIMICA ORGANICA

QUIMICA ANALITICA

FTIR emission studies of chemical processes

Morrell, Claire

January 2000

No description available.

541