Implication de l’oxygène et des anti-oxydants dans le processus de radiolyse de l’eau induit par l’irradiation aux ions de haute énergie : simulations numériques pour la radiobiologie / -

Colliaux, Anthony

15 December 2009

Il s’agit d’étudier les effets du TEL du rayonnement, d’un soluté (oxygène, antioxydant, scavengers...) et d’une géométrie de confinement sur les processus physiques et chimiques. Nos études sur la production de radicaux libres en fonction de la pression d’oxygène et du TEL du rayonnement nous ont permis de noter une similitude entre la production des radicaux O2- / HO2 et l’effet oxygène décrit en radiothérapie. Ces résultats confortent l’idée que ce couple de radicaux pourraient jouer un rôle dans l’effet oxygène (radiothérapie) et expliqueraient la disparition de cet effet à haut TEL (hadronthérapie). Nous avons aussi montré que cette similitude persistait en présence de Glutathion (antioxydant majoritaire dans le noyau cellulaire) / -

Radiolyse

Simulations numériques

Radiobiologie

Radiolysis

Digital simulations

Radiobiology

530

A Radical Approach to Syntheses and Mechanisms

Hancock, Amber N.

24 October 2011

The critically important nature of radical and radical ion mechanisms in biology and chemistry continues to be recognized as our understanding of these unique transient species grows. The work presented herein demonstrates the versatility of kinetic studies for understanding the elementary chemical reactions of radicals and radical ions. Chapter 2 discusses the use of direct ultrafast kinetics techniques for investigation of crucially important enzymatic systems; while Chapter 3 demonstrates the value of indirect competition kinetics techniques for development of synthetic methodologies for commercially valuable classes of compounds. The mechanism of decay for aminyl radical cations has received considerable attention because of their suspected role as intermediates in the oxidation of tertiary amines by monoamine oxygenases and the cytochrome P450 family of enzymes. Radical cations are believed to undergo deprotonation as a key step in catalysis. KIE studies performed by previous researchers indicate N,N-dimethylaniline radical cations deprotonate in the presence of the bases acetate and pyridine. By studying the electrochemical kinetics of the reaction of para substituted N,N-dimethylaniline radical cations with acetate anion, we have produced compelling evidence to the contrary. Rather than deprotonation, acetate reacts with N,N-dimethylaniline radical cation by electron transfer, generating the neutral amine and acetoxyl radical. Transport properties of reactants and solvent polarity changes were investigated and confirmed not to influence the electrochemical behavior forming the basis for our mechanistic hypothesis. To reconcile our conclusion with earlier results, KIEs were reinvestigated electrochemically and by nanosecond laser flash photolysis. Rather than a primary isotope effect (associated with C-H bond cleavage), we believe the observed KIEs are secondary, and can be rationalized on the basis of a quantum effect due to hyperconjugative stabilization in aromatic radical cations during an electron transfer reaction. Product studies performed by constant potential coulometry indicate N,N-dimethylaniline radical cations are catalytic in carboxylate oxidations. Collectively, our results suggest that aminyl radical cation deprotonations may not be as facile as was previously thought, and that in some cases, may not occur at all. Interest in design and synthesis of selenium containing heterocycles stems from their ability to function as antioxidants, anti-virals, anti-inflammatories, and immunomodulators. To establish synthetic feasibility of intramolecular homolytic substitution at selenium for preparation of selenocycles, we set out to determine what factors influence cyclization kinetics. A series of photochemically labile Barton and Kim esters have been syntheisized and employed as radical precursors. The effect of leaving radical stability on kinetics has been investigated through determination of rate constants and activation parameters for intramolecular homolytic substitution of the corresponding radicals via competition experiments. Notable leaving group effects on measured kinetic parameters show more facile reactions for radical precursors with more stable leaving radicals. Moreover, cyclizations to form six-membered (as opposed to five- membered) ring systems exhibited order of magnitude decreases in rate constants for a given leaving radical. Our results are congruent with expectations for radical cyclizations trends for the varied experimental parameters and suggest homolytic substitution affords a convenient means for synthesis of selenocycles. / Ph. D.

Carboxylate

Deprotonation

Electron Transfer

Radical Cyclization

Homolytic Substitution

Selenium

Radical Trap

Rate Constant

Deuterium Isotope Effect

Arrhenius Parameter

N

Mechanism

Kinetics

Cyclic Voltammetry

Constant Potential Coulometry

Competition Kinetics.

Amine Radical Cation

N-dimethylaniline

Digital Simulations

Laser Flash Photolysis

Science Teacher Perceptions Toward Digital Simulations and Virtual Labs as Digital Tools in the 7-12th Science Classroom

Kuehne, Teresa A.

23 September 2020

No description available.

Education

Educational Technology

Science Education

Secondary Education

Teacher Education

Teaching

Science Teacher

Teacher Perceptions

Digital Simulations

Virtual Labs

Virtual Laboratories

Digital Tools

Science Classroom

Science Teaching

Science Instruction

UTAUT

self-efficacy

TPACK