Employing graphene acoustoelectric switch by dual surface acoustic wave transducers.

We implement a logic switch by using a graphene acoustoelectric transducer at room temperature. We operate two pairs of inter-digital transducers (IDTs) to launch surface acoustic waves (SAWs) on a LiNbO substrate and utilize graphene as a channel material to sustain acoustoelectric current I induced by SAWs. By cooperatively tuning the input power on the IDTs, we can manipulate the propagation direction of I such that the measured I can be deliberately controlled to be positive, negative, or even zero. We define the zero-crossing I as [Formula: see text], and then demonstrate that I can be switched with a ratio [Formula: see text] at a rate up to few tens kHz. Our device with an accessible operation scheme provides a means to convert incoming acoustic waves modulated by digitized data sequence onto electric signals with frequency band suitable for digital audio modulation. Consequently, it could potentially open a route for developing graphene-based logic devices in large-scale integration electronics.