Protonation, amino polymers

Ferruti, P. and Barbucci, R. Linear Amino Polymers Synthesis, Protonation and Complex Formation. Vol. 58, pp. 59—92. 

VDC polymer degradation and, 25 717 2-Alkyl-alcohols. See Guerbet alcohols Alkylalkanolamines, 2 140 Alkylaluminum compounds, 2 285 Alkylaluminum halides, 2 358 Alkylaluminum reagents, in triorganotin preparation, 24 815-816 Alkyl amino acids, protonated, 17 780 Alkylaminomethanols, 12 112 AT-Alkyl amino propionates, 24 148... 

Cyclic voltammetric studies show a strong pH dependence for the electrode response when doped with copper. Free amino groups protonate at low pH, causing swelling of the polymer and a more open structure. The detailed redox behaviour of the copper electrode is determined by the rate of charge diffusion through the film. 

Linear amino polymers containing basic nitrogen atoms are critically reviewed with regard to their synthesis, protonation and complex formation in solution with metal ions. Cross linked resins having essentially the same structure as linear polymers, are also mentioned. As far as the proto-nation is concerned, special care has been given to thermodynamic aspects, and to the most probable protonation mechanism. Complexing abilities of these polymers have been evaluated through stability constants and spectroscopic parameters. Practical implications of the properties have been considered. 

Linear Amino Polymers — Synthesis, Protonation and Complex Formation... 

Carbonate radical is generated by the reaction of OH radical with carbonate ion and bicarbonate ion [reaction (19)(20)], so this experiment was done under N20 saturation[reaction (9)]. Carbonate radical has an absorption peak at 600 nm. As well as hydrated electron and sulphate radical, the rate constant of the reaction of carbonate radical with polymer chains[reaction (21)] can be calculated from estimating the slope of the pseudo first-order decay rate of the absorbance at 600 nm against polymer concentration. Then, the rate constants with CM-chitin and CM-chitosan, CM-cellulose were determined as (3.9 6.4)x 105[MXs l](Figure 8). These values are lower than the value of OH radical and sulphate radical, and so this shows carbonate radical is less oxidative than OH radical and sulphate radical. Focusing the rate constants of CM-chitosan, the value at around pH 9.5 is lower than over pH 10. This is because of pKa of amino group, protonation and unprotonation. For a weak reactivity of carbonate radicals, it can be assumed that carbonate radical have a selectivity attacking polymer chains. 

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