Two-Dimensional Materials in Nanomaterials: Properties, Applications, and Prospects

Abstract

Recently, two-dimensional (2D) materials have garnered significant attention in nanomaterials research because of their unique physical and chemical properties. This paper examines the research background, core properties, main application areas, and future prospects of 2D materials. Through a systematic literature review and case studies, this paper summarizes the main advances and challenges in current 2D material research. The research methodology includes a literature review and case study analysis, aiming to uncover the potential of 2D materials in nanoelectronics, optoelectronic devices, energy storage, and biomedicine. The research questions address the fundamental properties of 2D materials, their practical applications, and strategies to overcome existing challenges. The results indicate that while 2D materials like graphene and transition metal dichalcogenides (TMDs) exhibit excellent electronic, optical, and mechanical properties, they still encounter significant challenges in material preparation, performance tuning, and environmental safety. This paper proposes potential solutions and predicts the future applications of 2D materials in emerging technologies. The conclusion asserts that with the continuous discovery of novel 2D materials and technological advancements, 2D materials will play a crucial role in science and industry.