This work presents an electrochemical study of enhanced electronic communication based on intermolecular hydrogen-bonding in ferrocenemethanol (described as FcCH2OH) molecular clusters. The enhanced electronic commu...This work presents an electrochemical study of enhanced electronic communication based on intermolecular hydrogen-bonding in ferrocenemethanol (described as FcCH2OH) molecular clusters. The enhanced electronic communication in FcCH2OH clusters is confirmed and further investigated by differential-pulse voltammetry and cyclic voltammetry. A key finding is that this enhanced electronic communication increases the standard rate constant of the electron transfer process. These results will provide us with a further understanding of the electronic communication within the ferrocenyl derivariv~ which it ha^pd nn rhp inr^rmnlpcldar hvdrn^en-hnndinct展开更多
基金the financial support from the National Natural Science Foundation of China(No. 21173023)National 111 Project of China(No. B07012)
文摘This work presents an electrochemical study of enhanced electronic communication based on intermolecular hydrogen-bonding in ferrocenemethanol (described as FcCH2OH) molecular clusters. The enhanced electronic communication in FcCH2OH clusters is confirmed and further investigated by differential-pulse voltammetry and cyclic voltammetry. A key finding is that this enhanced electronic communication increases the standard rate constant of the electron transfer process. These results will provide us with a further understanding of the electronic communication within the ferrocenyl derivariv~ which it ha^pd nn rhp inr^rmnlpcldar hvdrn^en-hnndinct
