One-transistor memory devices facilitate nonvolatile data storage through
the manipulation of oxygen vacancies within a trapping layer of a
field-effect transistor (FET), thereby providing control and variation of
threshold voltages of the transistor. Various threshold voltages may be
assigned a data value, providing the ability to store one or more bits of
data in a single memory cell. To control the threshold voltage, the
oxygen vacancies may be manipulated by trapping electrons within the
vacancies, freeing trapped electrons from the vacancies, moving the
vacancies within the trapping layer and annihilating the vacancies.