Investigation of the Hybrid Structures based on Carbon Materials for Solar Steam Generation, Ph.D. Dissertation Sharif University of Technology ; Irajizad, Azam (Supervisor) ; Esfandiar, Ali (Supervisor)
Abstract
Two-dimensional nanostructures can significantly absorb solar irradiation, due to diverse energy levels, large effective surfaces, layered and porous structures with adjustable physical and chemical properties. Mono and multilayers of graphene, as the first isolated 2D materials with special band-structure of a zero-band gap, along with impressive optical properties, tunable light interaction, and adjustable optical properties by chemical doping or structural defects, have great potential for the next generation of nanophotonic devices. So, graphene is an appropriate candidate for absorption, frequent reflection, and energy conversion of electromagnetic waves at the frequency range of the...
Cataloging briefInvestigation of the Hybrid Structures based on Carbon Materials for Solar Steam Generation, Ph.D. Dissertation Sharif University of Technology ; Irajizad, Azam (Supervisor) ; Esfandiar, Ali (Supervisor)
Abstract
Two-dimensional nanostructures can significantly absorb solar irradiation, due to diverse energy levels, large effective surfaces, layered and porous structures with adjustable physical and chemical properties. Mono and multilayers of graphene, as the first isolated 2D materials with special band-structure of a zero-band gap, along with impressive optical properties, tunable light interaction, and adjustable optical properties by chemical doping or structural defects, have great potential for the next generation of nanophotonic devices. So, graphene is an appropriate candidate for absorption, frequent reflection, and energy conversion of electromagnetic waves at the frequency range of the...
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