The era of two-dimensional materials has begun with graphene. It is the first artificially-isolated single-atom-thick material, which is also an exceptional example of its kind. With its extraordinary physical and chemical properties, it has become hugely popular among scientists and technologists isn a timeframe of less than a decade. When first isolated, graphene has been a subject of fundamental research by condensed matter physicists. Later, the possibility to exploit graphene’s applicability have brought research toward methods for large scale production. One leading technique to obtain graphene is by its synthesis on sacrificial substrates by Chemical Vapor Deposition (CVD). Thus, a great deal of interest in research and development of graphene has risen all over the world. This thesis work has been conducted at INRiM (Istituto Nazionale di Ricerca Metrologica) and has addressed the synthesis of graphene by CVD on copper, which has become the most popular catalyst for graphene growth. The entire CVD process, performed on both Cu thin films and foils, is here presented as well as transfer methods are discussed. Growth of graphene is discussed also in terms of direct deposition onto insulating substrates, and preliminary results are reported. Finally, a first approach on electrical characterization of graphene grown on Cu foils is described. Although many aspect of graphene growth have been developed, the main work has been done on the growth of graphene on Cu thin films investigating the possibility of lowering the film thickness. This goal was in competition with dewetting phenomena: thin films energy minimization at high temperature, indeed, let the film to dewet forming holes and eventually islands. In chapter 3 is reported an analysis on Cu thin films dewetting, results of chapter 3 are used in chapter 4 where CVD on such thin films is reported. Chapter 5 deals with transferring methods of graphene, alongside of the "standard" method a new technique is proposed. In Chapter 6 the direct deposition onto insulating substrates is investigated via a method where Cu is used as a remote catalyzer. In the last chapter the electrical characterization of graphene is approached with the aim of demonstrating the feasibility of performing also this characterization procedure in INRiM labs.

A Si based technology route to chemical vapor deposition of large area graphene / Croin, Luca. - (2015).

A Si based technology route to chemical vapor deposition of large area graphene

CROIN, LUCA
2015

Abstract

The era of two-dimensional materials has begun with graphene. It is the first artificially-isolated single-atom-thick material, which is also an exceptional example of its kind. With its extraordinary physical and chemical properties, it has become hugely popular among scientists and technologists isn a timeframe of less than a decade. When first isolated, graphene has been a subject of fundamental research by condensed matter physicists. Later, the possibility to exploit graphene’s applicability have brought research toward methods for large scale production. One leading technique to obtain graphene is by its synthesis on sacrificial substrates by Chemical Vapor Deposition (CVD). Thus, a great deal of interest in research and development of graphene has risen all over the world. This thesis work has been conducted at INRiM (Istituto Nazionale di Ricerca Metrologica) and has addressed the synthesis of graphene by CVD on copper, which has become the most popular catalyst for graphene growth. The entire CVD process, performed on both Cu thin films and foils, is here presented as well as transfer methods are discussed. Growth of graphene is discussed also in terms of direct deposition onto insulating substrates, and preliminary results are reported. Finally, a first approach on electrical characterization of graphene grown on Cu foils is described. Although many aspect of graphene growth have been developed, the main work has been done on the growth of graphene on Cu thin films investigating the possibility of lowering the film thickness. This goal was in competition with dewetting phenomena: thin films energy minimization at high temperature, indeed, let the film to dewet forming holes and eventually islands. In chapter 3 is reported an analysis on Cu thin films dewetting, results of chapter 3 are used in chapter 4 where CVD on such thin films is reported. Chapter 5 deals with transferring methods of graphene, alongside of the "standard" method a new technique is proposed. In Chapter 6 the direct deposition onto insulating substrates is investigated via a method where Cu is used as a remote catalyzer. In the last chapter the electrical characterization of graphene is approached with the aim of demonstrating the feasibility of performing also this characterization procedure in INRiM labs.
2015
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2593358
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