초록
네자리 Schiff base의 착물 Co(II)(3MeOSED)$(H_2O)_2$을 합성하였다. 이 착물의 균일 산화 활성촉매로서 산소첨가 착물은 DMF와 DMSO 용매에서는 ${\mu}$-peroxo형인 [Co(III)(3MeOSED)(DMF)]$_2O_2$와 [Co(III)(3MeOSED)(DMSO)]$_2O_2$이나 pyridine 용매에서는 superoxo형인 [Co(Ⅲ)(3MeOSED)(Py)]$O_2$로 주어진다. 이들의 CV법과 DPP법에 의한 전기화학적인 특성으로 ${\mu}$-peroxo형은 3단계 환원과정으로 일어나지만, superoxo형은 $O_2$의 prewave를 포함한 4단계 환원과정으로 일어난다. 산소가 포화된 메탄올 용액에서 [Co(III)(3MeOSED)(L)]$O_2(L: CH_3OH)$ 의 균일 산화 활성촉매에 의한 hydrazobenzene-$(H_2AB)$의 산화 주생성물은 trans-azobenzene(t-AB)이 선택적으로 다음과 같은 반응식으로 생성되고 이 때 속도상수는 k = (2.96 ${\pm}$ 0.2) ${\times}$ $10^{-1}$M/sec임을 알았다. $H_2AB$ + Co (Ⅱ)(3MeOSED)$(L_2)+O_2\;{\rightleftarrow^K}$ [Co(III)(3MeOSED)(L)]$O_2{\cdot}H_2AB{\longrightarrow^K}$ Co(II(3MeOSED)$(L)_2$+t-AB+$H_2O_2 $.
Tetradentate Schiff base Cobalt(II)(3MeOSED)$(H_2O)_2$ complexe was synthesized and allowed to react with dry oxygen to form oxygen adducts of Cobalt(III) complexes such as ${\mu}$-peroxo type [Co(III)(3MeOSED)(DMF)]$_2O_2$ and [Co(III)(3MeOSED)(DMSO)]$_2O_2$in DMF and DMSO or superoxo type [Co(III)(3MeOSED)(Py)]$O_2$ in pyridine. The oxygen adducted complex was investigated by cyclic voltammetry and DPP method with glassy carbon electrode in 0.1M TEAP-DMF (-DMSO,-Py) as supporting electrolyte solution. As a result the reduction reaction process occurred to four steps including prewave Of $O_2^-$in 1 : 1 oxygen adducted superoxo type [Co(III)(3MeOSED)(Py)]$O_2$complex and three steps not including prewave of $O_2^-$ in 1 : 2 oxygen adducted ${\mu}$-peroxo type [Co(III)-(3MeOSED)(DMF)]$_2O_2$ and [Co(III)(3MeOSED)(DMSO)]$_2O_2$. A superoxo type [Co(III)(3MeOSED)(L)]$O_2\;(L: CH_3OH)$ was generated with oxygen in methanol. Selectively oxidized hydrazobenzene $(H_2AB)$ to trans-azobenzene(t-AB) and the rate constant k for oxidation reaction of the following equation is $(2.96 {\pm} 0.2)$${\times}$ $10^{-1}$M/sec. $H_2AB$ + Co (II)(3MeOSED)$(L_2)+O_2\;{\rightleftarrow^K}$ [Co(III)(3MeOSED)(L)]$O_2{\cdot}H_2AB{\longrightarrow^K}$ Co(II(3MeOSED)$(L)_2$+t-AB+$H_2O_2 $.