Applications of Spin Polarization in Nanomaterials and Devices

Abstract

Spin polarization is a key phenomenon in nanomaterials that plays a pivotal role in determining the electronic properties of materials. With the rapid growth of spintronics, spin-polarized nanomaterials are increasingly being used in novel devices such as magnetic sensors, memory storage devices, and quantum computing systems. This paper explores the applications of spin polarization in nanomaterials, highlighting their impact on device performance, particularly in the fields of spintronic devices, quantum computing, and energy harvesting systems. Additionally, we discuss the advancements in materials engineering that have enabled better spin polarization efficiency and the future directions of research in this field.