Symmetry engineering in low-dimensional materials

Abstract

Symmetry is a significant concept that has played a fundamental role in various fields of science, including particle physics, condensed matter physics, and materials science. Symmetry has contributed to the advancement of our understanding of phenomena such as the discovery of new particles, spintronics, superconductivity, and the modulation of material properties. The principle of symmetry continues to guide progress and unification across various scientific disciplines. The emergence of low-dimensional materials (LDMs) has significantly expanded the materials landscape, enabling potential for the modulation of their properties through symmetry engineering. This has opened up new avenues for theoretical research and advanced device development. This review summarizes the application of symmetry in different materials systems and highlights the latest research progress in symmetry breaking engineering of LDMs. The benefits of incorporating symmetry principles from physics into materials science are also discussed.