Inhibition of oxidation of ascorbic acid by EDTA

SIR,--JI~~ I point out tliiit in your rcport of t.lw nlecting of tlic GIiisgow Section on October fi (CIII\*:M. S: Is])., Oct. 13, 11. SlS), you oinittcd tlic main point. of riiy sllggcstioii. This \viis tlliit thc rcsistiincc to t,llc rcliitivc inovcniciit of t,wo Iiibriciitcd surfiiccs, untlcr t,l

The pertechnetate ion oxidizes ascorbic acid in strong acid medium to form red species. A reaction mechanism has been developed which correctly predicts all the experimental facts. The results obtained support the postulate according to which the red species corresponds to a complex formed between T

The reaction between chromium(V1) and L-ascorbic acid has been studied by spectrophotometry in the presence of aqueous citrate buffers in the pH range 5.69-7.21. The reaction is slowed down by an increase of the ionic strength. At constant ionic strength, manganese(I1) ion does not exert any appreci

Electrocatalytic oxidation of ascorbic acid (AA) in aqueous buffer solutions at thep-tetracyanoquinodimethane (TCNQ)-, ferrocene (Fc)-, 1 ,I '-dimethylferrocene (DMFc)-, and tetrathiafumene (TI'F)-modified graphite electrodes is carried out at each modifier's redox potentials. Over the linear range