((Excerpt))
Electromechanical phenomena in semiconductors are still poorly studied from a fundamental and an applied science perspective, even though significant strides have been made in the last decade or so. Indeed, most current electromechanical devices are based on ferroelectric oxides. Yet, the importance of the effect in certain semiconductors is being increasingly recognized. For instance, the magnitude of the electric field in an AlN/GaN nanostructure can reach 1–10 MV/cm. In fact, the basic functioning of an (0001) AlGaN/GaN high electron mobility transistor is due to the two-dimensional electron gas formed at the material interface by the polarization fields. The goal of this review is to inform the reader of some of the recent developments in the field for nanostructures and to point out still open questions.

Wright State President Sue Edwards Named to Dayton Business Journal’s Power 100
Civil Air Patrol encampment brings 500 cadets to Wright State for leadership training
Wright State Board of Trustees approves balanced budget reflecting financial strength and stability
Words of appreciation
Wright State names rising star Division I leader Brad Chandler as director of athletics