The electrochemical behavior of the adenosine5diphosphate(ADP) was studied in 005 molL-1 MES buffer solution(pH 585) at mercury electrode. There are no reduction and oxidation waves for the adenosine5diphosphate in th...The electrochemical behavior of the adenosine5diphosphate(ADP) was studied in 005 molL-1 MES buffer solution(pH 585) at mercury electrode. There are no reduction and oxidation waves for the adenosine5diphosphate in the range of -04-14 V(vs. Ag/AgCl). In a mixture solution of Eu3+ and ADP(Eu3+ADP=14), a reduction peak is obtained at -078 V. Comparing with the cyclic voltammograms of Eu3+ ions under the same experimental conditions, it is found that the complex of Eu3+ADP can be produced in above solutions between Eu3+ion and ADP. The complex is strongly adsorbed at mercury electrode and has the following electrode reaction mechanism: Eu3++ADPEu3+ADP+e-Eu2+-ADP.展开更多
Cyclic voltammetry method waws used to determine the cyclic voltammogram of artemisininderivatives and reduction potentials(RPs)of these compounds were obtained. Combining the determinationresults of Zhang and co-work...Cyclic voltammetry method waws used to determine the cyclic voltammogram of artemisininderivatives and reduction potentials(RPs)of these compounds were obtained. Combining the determinationresults of Zhang and co-workers,QSAR analysis was performed between the activity and reductionpotentials(RPs),which illustrated the antimalarial mechanism of artemisinin analogs, The experimentalresult verified and tested our previous theoretical calculation results.展开更多
文摘The electrochemical behavior of the adenosine5diphosphate(ADP) was studied in 005 molL-1 MES buffer solution(pH 585) at mercury electrode. There are no reduction and oxidation waves for the adenosine5diphosphate in the range of -04-14 V(vs. Ag/AgCl). In a mixture solution of Eu3+ and ADP(Eu3+ADP=14), a reduction peak is obtained at -078 V. Comparing with the cyclic voltammograms of Eu3+ ions under the same experimental conditions, it is found that the complex of Eu3+ADP can be produced in above solutions between Eu3+ion and ADP. The complex is strongly adsorbed at mercury electrode and has the following electrode reaction mechanism: Eu3++ADPEu3+ADP+e-Eu2+-ADP.
文摘Cyclic voltammetry method waws used to determine the cyclic voltammogram of artemisininderivatives and reduction potentials(RPs)of these compounds were obtained. Combining the determinationresults of Zhang and co-workers,QSAR analysis was performed between the activity and reductionpotentials(RPs),which illustrated the antimalarial mechanism of artemisinin analogs, The experimentalresult verified and tested our previous theoretical calculation results.
