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International Journal of Engineering & Technology Sciences
IJETS 2015, 3(6), 414-425
Exploring Atomic-Scale Energy Coupling at Low-Dimensional Contact Interfaces: A Review
ABSTRACT
The comprehensive analysis presented in this review underscores the significant implications of energy coupling within low-dimensional contact systems, particularly in the context of nanoscale technology. By critically evaluating the latest developments in understanding and controlling energy transport processes across atomic-scale interfaces, this article sheds light on the fundamental mechanisms governing energy coupling, encompassing phonon, electron, and photon transport. The exploration of quantum effects and confinement in various low-dimensional materials, such as nanotubes, graphene, and 2D layered structures, further enriches our understanding of energy coupling behavior. Moreover, the study underscores the practical relevance of this knowledge in optimizing nanodevice performance, spanning from enhanced energy harvesting to more efficient thermal management. As scientists continue to unravel the intricacies of atomic-scale energy coupling, this review serves as a comprehensive synthesis of current knowledge, identifying key challenges and future prospects that can catalyze groundbreaking advancements in nanotechnology.
Energy coupling; Low-dimensional interfaces; Thermal management; 2D materials; Device performance. .