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Chapter 3 – Raman Spectroscopy of Graphene and Graphene-based Strain Sensors be easily detected, making this band highly sensitive upon application of tensile or compressive strain/stress. This high strain sensitivity of Raman 2D band of graphene makes graphene composite/coatings as a potential candidate for optical Raman-based strain sensors, a concept which is explored in this thesis. 3.3. APPLICATIONS OF GRAPHENE Given the extraordinary properties of graphene, various potential multifunctional applications are possible, ranging from conductive inks to structural composites (Figure 3.12). Figure 3.12: Potential applications of graphene in different sectors ranging from conductive inks to chemical sensors, light emitting devices, composites, energy, touch panels and high frequency electronics.2 Among the applications, the use of graphene in the area of sensors has been studied widely. The 2d nature of graphene leads to a high surface area, resulting in a high degree of sensitivity to changes in the environment, making it a suitable candidate as sensors; ranging from gas sensors, mass sensors, bio sensors, optical sensors to strain sensors.2 It has been shown that the absorption of individual gas molecules (e.g., NO2) can be detected using MC graphene35, and a 3d foam containing FLG produced via CVD can detect NO2 and NH3 at an order of magnitude lower concentration than commercial 91PDF Image | PRODUCTION AND APPLICATIONS OF GRAPHENE AND ITS COMPOSITES
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