Single electron transfer in nucleophilic reactions of substituted norbornanes

Duff, Jack Lawrence

08 1900

No description available.

Oxidation-reduction reaction

Nucleophilic reactions

The extent and importance of single electron transfers in organic reactions

Sun, Xiao-Jing

08 1900

No description available.

Charge transfer

Oxidation-reduction reaction

The effect of terminal base identity on radical cation injection into the DNA duplex

Sanii, Laurie Shireen

12 1900

No description available.

Cations

DNA

Oxidation-reduction reaction

Oxidation and reduction studies of polyphenylene suldide and its model compounds

Hsu, Songman

12 1900

No description available.

Oxidation-reduction reaction

Sulphonium compounds

Redox reactivity of mononuclear and binuclear rhenium complexes

Holder, Grant Newton

05 1900

No description available.

Chemical reactions

Oxidation-reduction reaction

Rubredoxin cobalt substitution and crystallization attempts

Beard, Collen Alana

05 1900

No description available.

Oxidation-reduction reaction

Iron proteins

Direct cobalt recovery from loaded KELEX 100 by reaction with hydrogen

Stubina, Nathan M.

January 1982

No description available.

Cobalt -- Metallurgy.

Electrolytic reduction.

Hydrometallurgy.

Investigation into the role of redox reactions in Maillard model systems : generation of aroma, colour and other non-volatiles

Haffenden, Luke John William.

January 2007

The role of redox reactions in the formation of aroma volatiles, colour and other non-volatiles in the Maillard Reaction was investigated. The electrochemical properties of individual reactants and Maillard model mixtures were monitored via ORP (oxidation-reduction potential) and oxygen electrodes. All models exhibited unique electrochemical activities represented by their corresponding ORP profiles. Investigation into the redox potentials of several model systems demonstrated that the increased negative value of a redox potential is not necessarily correlated with its browning potential. An optimal redox potential range, where browning is favoured, was found to represent a balance between carbonyl and hydroxyl moieties in the structure. Adjustment of this redox potential by introducing reducing or oxidizing species can shift this balance resulting in modifications in browning capacities. However, it was concluded that there is a clear relationship between browning ability and reducing capacity of the model systems. Furthermore, a novel oxidative pyrolysis technique was developed to study the role of oxidative environment on the product distribution during pyrolysis and to investigate the mechanism of formation of non-volatiles through 13C and 15N-label incorporation. Application of this technique to glucoselglycine model system have indicated that most non-volatile Maillard reaction products can arise from glucose oxidation intermediates such as glucosone, gluconic acid and deoxyglucosones. To study the specific role of redox reactions in the formation of non-volatiles, a post-pyrolytic derivatization technique was developed and optimized. Several non-volatile end products were identified and mechanistically confirmed to involve oxidation and reduction reactions for their formation, such as lactones, hydroxylated benzenes and hydroxylated pyrazine. The latter was identified and confirmed to be generated via the dimerization of glycine and subsequent oxidation. In addition, the formation of different volatiles such as pyrazole, imidazole and oxazole was mechanistically confirmed to depend on redox reactions.

Maillard reaction.

Oxidation-reduction reaction.

The role of bottom sediments in the nitrogen budget of the Great Ouse estuary

Trimmer, Mark

January 1997

No description available.

577

Redesign a system for reducing its setup time

Xu, Shengmin, Meng, Teng

January 2014

This is a final bachelor degree project for mechanical engineering. TM Design & Installation AB company needs to reduce the setup time for one end-forming machine by 50%. After some discussion and analysis, the group decides to subdivide the main problem into six sub problems. By aiming at each small problem and figure out several solutions, the group finally have concepts for the problem. The Project contains of the achievement of a design process which thanks to the theories treated in Product Development Through System Engineering and thanks to our previous knowledge and experience. By following all the steps in the books, the project leads us to the selection of final concept.

Setup time reduction

Product development