Controlling the direction of steady electric fields in liquid using nonantiperiodic potentials
Controlling the direction of steady electric fields in liquid using nonantiperiodic potentials
When applying an oscillatory electric potential to an electrolyte solution, it is commonly assumed that the choice of which electrode is grounded or powered does not matter because the time average of the electric potential is zero. Recent theoretical, numerical, and experimental work, however, has established that certain types of …