In contrast with general IP data acquisition, DNM expands frequency band of power, widens sampled time and raises detective rate.

与传统的激发极化数据采集方法相比，电场差分法增加了供电的周期，扩大了采样的时间区段，提高了采样的速度。

The electrochemical behaviors of daunomycin (DNM) at bare and DNA modified graphite powder microelectrodes have been comparatively studied, and a method for the determination of DNM was developed.

研究了道诺霉素(DNM)在石墨粉末微电极和DNA修饰石墨粉末微电极上的电化学行为，并分析了产生差别的原因。