Phd Graduate Student
In a world filled with 3D objects, my research, titled "Atomic Scale Insight into Single Layer MoS2 Heterostructures - Towards a Future of 2D Hybrid Materials," explored the fascinating realm of 2D materials like MoS2 and GNRs. This work unveiled vast potential for advanced electronics (transistors) and light devices (LEDs, solar cells), addressing fundamental questions about their interactions. I focused on the interface between MoS2 and GNRs, revealing unique interactions arising from Van der… Show more In a world filled with 3D objects, my research, titled "Atomic Scale Insight into Single Layer MoS2 Heterostructures - Towards a Future of 2D Hybrid Materials," explored the fascinating realm of 2D materials like MoS2 and GNRs. This work unveiled vast potential for advanced electronics (transistors) and light devices (LEDs, solar cells), addressing fundamental questions about their interactions. I focused on the interface between MoS2 and GNRs, revealing unique interactions arising from Van der Waals forces and covalent bonding. Additionally, I presented a method to explore the mechanical properties of GNRs and shared insights into the surface preparation of SrTiO3 and in situ growth of MoS2. The growth recipe yielded high-quality nanoparticles with controllable coverage, enabling detailed investigations of electronic band structures. In essence, this research opened doors to innovative applications in electronics and materials science. Show less