A study of the reaction mechanisms and reactive intermediates involved in halogenated compounds : trichloroethylene oxide, halogenated benzophenones, and halogenated quinoline-based phototriggers

Huang, Jinqing, 黃普卿

January 2014

UV/Vis absorption spectroscopy (UV/Vis), femtosecond transient absorption spectroscopy (fs-TA), nanosecond transient absorption spectroscopy (ns-TA), and nanosecond time-resolved resonance Raman spectroscopy (ns-TR3), as well as density functional theory (DFT) computations were employed to study the mechanisms and the intermediates in reactions of selected halogenated compounds, including trichloroethylene oxide (TCE oxide), halogenated benzophenones (4-FBP, 4-ClBP, 4-BrBP, 3-FBP, 33’-DFBP, 3-ClBP, 3-BrBP, 2-FBP, 2-ClBP, and 2-BrBP), and halogenated quinoline-based phototriggers (BHQ-OPh and BHQ-OAc). This study investigated the halogen substituent effect on the mechanisms of various water-involved reactions and the influences from the number of halogens present, the type of halogen and the substituent position of the halogen in the molecules of interest. The general mechanisms for the reactions of these halogenated compounds were summarized along with discussion of the driving forces from the substituted halogen. First, TCE oxide was hydrolyzed to release chloride ions one by one which led to a complicated water-catalyzed decomposition. To account for the dehalogenation and the formation of CO with three kinds of carboxylic acids (formic acid, glyoxylic acid, and dichloroacetic acid), the predominant decomposition pathways were examined by comparing the computed activation energies for the formation of different products. From these comparisons, the ring-opening reaction was identified as the rate-determining step, which is also supported by previous experimental observations reported in the literature. Based on all of these analyses, the mechanisms of the water-catalyzed decomposition reactions were determined and a water-assisted HCl elimination model has been proposed. Second, some halogen-substituted benzophenones demonstrated an efficiency for a photosubstitution reaction and the related photohydration reactions. Interestingly, the efficient photosubstitution reactions of 3-FBP and 33’-DFBP were dependent on the solution acidity and reached a maximum in 1 M HClO4 CH3CN/H2O (1/1) solution. Only the photohydration reaction took place for the 3-ClBP, 3-BrBP, 4-FBP, 4-ClBP, and 4-BrBP molecules. Nevertheless, no special photochemical reaction occurred for 2-FBP, 2-ClBP, and 2-BrBP. The mechanisms and intermediates were directly characterized by spectroscopic observations and rationalized by results from DFT computations. According to these results, the general mechanisms for the photosubstitution reaction and the related photohydration reactions of halogenated benzophenone derivatives were summarized. These results reveal that the efficiency in forming the corresponding hydroxy benzophenone is influenced by the solution acidity, substituent positions, and the character of the substituted halogens. The substituted halogen is the driving force of this photosubstitution reaction. This conclusion provides insight into several possible applications that are also briefly discussed in this thesis. Lastly, the BHQ-OPh system was found to undergo an extraordinary efficient excited-state proton transfer (ESPT) to initiate a dehalogenation reaction. The fs-TA and ns-TA spectra indicate clearly the interactions between four prototropic forms of BHQ-OPh, which were characterized by UV-Vis spectra under different pH values. These prototropic forms play important roles in inducing further dehalogenation, thus their structural configurations were also investigated by DFT computations. Besides, competing with the dehalogenation reaction, BHQ-OAc underwent another photodeprotection to release the OAc group. The comparison between BHQ-OPh and BHQ-OAc provides further information in understanding the mechanisms of dehalogenation reactions and photodeprotection reactions of these quinoline-based phototriggers. / published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy

Halogen compounds

The spectroscopy and quenching of some ion-pair states of I₂, Br₂ and IBr

MacDonald, Michael Alistair

January 1984

No description available.

546

Halogen chemistry

Novel fluoride sources for selective aromatic fluorination

Nightingale, David J.

January 1998

No description available.

547

Halogen exchange; Fluorodenitration

Interpretation of CARS spectra from reactive gas flows

Bruguier, Daniel

January 1997

No description available.

541

Tungsten-halogen lamp

Polyfluorinated alkenes and alkynes

Edwards, Andrew R.

January 1997

The research described within this thesis may be divided into four main subject areas: 1) The use of (Z)-2H-heptafluorobut-2-ene (10) as a synthon for hexafluorobut- 2-yne (4) in Diels-Alder reactions was investigated. Novel 'one-pot' routes to a variety of bis(trifluoromethyl) substituted furan and arene derivatives were discovered, along with the synthesis of the novel diene, bis(trifluoromethyl)cyclopentadiene (46), from cyclopentadiene.2) A variety of nucleophiles were successfully reacted with (10), the products of which were identical to those that have been, or would be expected to be, formed from the reaction of the same nucleophile with (4). A novel route to a fluorinated quinoline derivative was also discovered.3) Perfluoroperhydrophenanthrene (74) was used as a 'bulking agent' to replace the hydrocarbon solvent used in halogen exchange reactions for the preparation of octafluorocyclopentene (3), chlorofluoro -pyridine, -pyrimidine, and -benzene derivatives. New 'one-pot' syntheses of hexafluorobut-2-yne (4), octafluorobut-2-ene (6) and hexafluorocyclobutene (2) were also discovered.4) Various routes were explored in an attempt to improve the present literature preparations of tetrafluoropropyne (79), including pyrolysis and elimination methods. Tetrafluoroallene (81), and trace amounts of (79), were found to be formed on the elimination of hydrogen fluoride from 2H-pentafluoropropene (5).

547

Halogen exchange; Cycloaddition

The kinetics of the addition of halogens to unsaturated compounds

Bryan, Elmer Leo, 1900-

January 1938

No description available.

Halogen compounds.

Chemical kinetics.

The action of Raney nickel on halo-nitrobenzenes

Chu, Rin

08 1900

No description available.

Nickel

Halogen compounds

A study of the preparation of the halogen substituted normal butanols

Buffett, George Marshall.

January 1933

Thesis (Ph. D.)--University of Wisconsin--Madison, 1933. / Typescript. eContent provider-neutral record in process. Description based on print version record.

Butanol. Halogen compounds.

A crystallographic and theoretical study of halogen---halogen and halogen---halide synthons

Awwadi, Firas Fandi,

January 2005

Thesis (Ph.D.)--Washington State University, August 2005. / Includes bibliographical references.

Halogen compounds. Halogens. Halides.

Kinetics of some gas phase reactions of halogenated free radicals

Vertommen, Luc L. T.

January 1978

The first two chapters of this thesis describe a study of the kinetics of the gas phase addition of perfluoro-isopropyl and perfluoro-t-butyl radicals to various olefins. The radicals were produced by photolysing the corresponding perfluoroalkyl iodides. Temperature variation data allowed determination of relative Arrhenius parameters. The results are compared with the data available for other simple radicals, and a comparison between the radicals of the series CF3•, CF3CF2•, (CF3)2CF• and (CF3)3C •, in particular, gives valuable information as to the relative importance of steric and other effects in free radical addition reactions. Chapter 3 describes an attempt to determine the absolute rate constant for the recombination of perfluoro- isopropyl radicals. The rotating sector method was used, but, due to a certain amount of thermal initiation and to a first order termination process as well as the more usual bimolecular disappearance of the radicals, the simple mathematical treatment, presented by Shepp, could not be applied to our system. A modified treatment was used and the rate constant was determined at 46°c. The result was taken as evidence for an activation energy different from zero for the reaction. Chapter 4 is a study of the orientation of the addition of monoiodomethyl radicals to various fluorinated olefins, at 150°c Di-t-butyl peroxide was thermally decomposed and the methyl radicals produced initiated the free radical addition by astracting ioding for diiodomethane. The results are compared with the date of some related radicals.

QD305.H15V3 ; Halogen compounds