Schottky Barrier Memory based on Heterojunction Bandgap Engineering for High-density and Low-power Retention

Abstract: Dynamic random-access memory (DRAM) has been scaled down to meet high-density, high-speed, and low-power memory requirements. However, conventional DRAM has limitations in achieving memory reliability, especially sufficient capacitance to distinguish memory states. While there have been attempts to enhance capacitor technology, these solutions increase manufacturing cost and complexity. Here, we propose a novel Schottky barrier memory (SBRAM) featuring a heterojunction based on bandgap engineering. SBRAM can b… Show more