Determination of a refractive index and an extinction coefficient of standard production of CVD-graphene

Ochoa-Martínez, Efraín; Gabás, M.; Barrutia, Laura; Pesquera, Amaia; Centeno, Alba; Palanco, S.; Zurutuza, Amaia; Algora, Carlos

doi:10.1039/c4nr06119e

Cited by 61 publications

(49 citation statements)

References 31 publications

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“…Combination of the Drude model with the Lorentz line was proposed for description of the optical parameters of graphene [16]. The pure Drude model gave not so satisfactory results in our case, but its accomplishing by one Lorentz line remarkably improved the situation.…”

Section: Spectroscopic Ellipsometrymentioning

confidence: 97%

Direct synthesized graphene-like film on SiO2: Mechanical and optical properties

Bortchagovsky¹

2016

Semicond. Phys. Quantum Electron. Optoelectron.

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Abstract. Exploiting CVD technique for carbon deposition from C 2 H 2 +H 2 +N 2 mixture, a graphene-like film synthesized directly on SiO 2 surface of SiO 2 -Si structure was obtained. The graphene-like film was grown under thin Ni layer that is easy exfoliated from graphene-SiO 2 -Si structure. Surface of the film was sufficiently smooth and reveals no winkles and holes; it has a good homogeneity and perfect adhesion to SiO 2 layer. Studying the micro-Raman spectra showed a graphene-like structure of the film; using atomic force microscopic technique, the thickness of film was determined (0.6 nm). Using spectroscopic ellipsometry and simple Cauchy model enabled us to estimate optical parameters of this graphene-like film.

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Section: Spectroscopic Ellipsometrymentioning

confidence: 97%

Direct synthesized graphene-like film on SiO2: Mechanical and optical properties

Bortchagovsky¹

2016

Semicond. Phys. Quantum Electron. Optoelectron.

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“…The original intent of Vakil and Engheta's model was to simulate graphene in commercial electromagnetic software; it was emulated with tremendous success by researchers working on device simulations thereafter [37,38,[41][42][43]. Later, experimental optics researchers also successfully adopted this model to fit their experimental measurements of graphene's refractive index [44][45][46][47][48][49]. It should be noted that the rapid development of graphene research has prompted improvement in modern Maxwell solvers to incorporate surface current boundary conditions for simulation of graphene's 2D optical conductivity in 3D devices [50][51][52].…”

Section: Introductionmentioning

confidence: 99%

Nonlinear graphene plasmonics

Ooi

Tan

2017

Proc. R. Soc. A.

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The rapid development of graphene has opened up exciting new fields in graphene plasmonics and nonlinear optics. Graphene's unique twodimensional band structure provides extraordinary linear and nonlinear optical properties, which have led to extreme optical confinement in graphene plasmonics and ultrahigh nonlinear optical coefficients, respectively. The synergy between graphene's linear and nonlinear optical properties gave rise to nonlinear graphene plasmonics, which greatly augments graphene-based nonlinear device performance beyond a billion-fold. This nascent field of research will eventually find far-reaching revolutionary technological applications that require device miniaturization, low power consumption and a broad range of operating wavelengths approaching the far-infrared, such as optical computing, medical instrumentation and security applications.

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“…As it is already known, by using this method, the graphene layer could be damaged or end up unintentionally with a higher doping level due to several agents present at the different steps (such as Cu etchant, dust particles, water molecules or PMMA residues) degrading its final electronic mobility [Capasso et al 2014, Leclercq. J et al 2016 or changing its optical properties [Ochoa-Martinez et al 2015]. Moreover, previous reports indicate that not only PMMA can be a p-type dopant on graphene [Chen et al 2007, Na et al 2006] but it has been also reported that the presence of oxygen may also influence the p-type doping level [Ryu et al 2010].…”

Section: The Ies-upm Graphene Transfer Processmentioning

confidence: 99%

“…With the aim of exploring the evolution of the surface composition on top of and under the graphene layer, measurements were made at three different take-off angles (10º, 45º and 90º, outing photoelectrons pathway measured from the sample surface), changing thus the explored depth. Further information and details on ARXPS measurements can be obtained in [Ochoa-Martinez et al 2015].…”

Section: Process Characterizationmentioning

confidence: 99%

“…What was observed, is that graphene transfer is directly influenced not only by the different steps of the wet transfer method, but also by the substrate used. Moreover, the presence of water molecules, oxygen at the interface of graphene and the substrate together with PMMA residues are drastically reduced when thermal annealing treatments are carried out [Ochoa-Martinez et al 2015]. Unfortunately, after such treatments the presence of some of this debris is unavoidable and thus the influence on the electrical properties of graphene (mobility, doping, work function…).…”

Section: Transfer Of More Than One Monolayer Graphenementioning

confidence: 99%

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Optimization pathways to improve GaInP/GaInAs/Ge triple junction solar cells for CPV applications

Poncela¹

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adecuada en una célula multiunión. Posteriormente, hemos realizado la transferencia e integración de grafeno en una célula de triple unión así como su análisis y comparación respecto al mismo xi tipo de célula sin grafeno. Uno de los resultados de este trabajo ha sido una solicitud de patente sobre células solares multiunión de semiconductores III-V que incorporen grafeno.xiii Abstract Concentration Photovoltaic (CPV) technology has been growing up intensively since the early 2000s. In particular, GaInP/GaInAs/Ge lattice matched triple junction solar cells are still dominating the CPV market. This thesis has focused on the investigation of this kind of multijunction solar cells aiming at further developing the basic technology previously developed in the III-V Semiconductor Group at the Solar Energy Institute of the Technical University of Madrid (IES-UPM). The different aspects that have been tackled in order to enhance the efficiency of this structure begin with the Ge substrate, which supports the rest of the structure, up to the incorporation of graphene on top of the device to serve as a transparent electrode.Firstly, the epitaxial growth of III-V materials on Ge substrates is considered. Ge contamination along the semiconductor layers is of special interest, since the non-intentional incorporation of Ge in the active layers will have a detrimental effect on their properties. In this study, attention has been paid not only to the Ge solid-state diffusion that takes place at the first epitaxial layers next to the III-V/Ge heterointerface, but also to the incorporation of Ge from the gas phase during the epitaxial growth by Metalorganic Vapor Phase Epitaxy (MOVPE). Thus, the influence of different conditions and growth parameters are analyzed with the purpose of finding the best combination of process parameters to mitigate this effect.Following with the device optimization, three main aspects detected as possible improvement mechanisms had been addressed. On the one hand, the VOC of the Ge bottom cell is lower than expected, due to the accumulated thermal load of the growth of the rest of the MJSC structure.With the aim of mitigating such thermal load and improving this VOC, several III-V on Ge nucleation strategies are studied. In particular, this Thesis presents a new nucleation routine of the GaInP nucleation layer and the GaInAs buffer layer where special attention has been paid to minimize their contribution to the thermal load in terms of thickness (i.e. growth time) and temperature.The following step is the optimization of the GaInP subcell. Ensuing with the use of Sb as surfactant during the growth of the GaInP base, in this Thesis the GaInP subcell is further Chapter 1

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Determination of a refractive index and an extinction coefficient of standard production of CVD-graphene

Cited by 61 publications

References 31 publications

Direct synthesized graphene-like film on SiO2: Mechanical and optical properties

Direct synthesized graphene-like film on SiO2: Mechanical and optical properties

Nonlinear graphene plasmonics

Optimization pathways to improve GaInP/GaInAs/Ge triple junction solar cells for CPV applications

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