Your search keyword '"Pedesseau L."' showing total 158 results

1. Stability of monodomain III-V crystals and antiphase boundaries over a Si monoatomic step

Author

Gupta, D., Chandrasekharan, S. Pallikkara, Thébaud, S., Cornet, C., and Pedesseau, L.

Subjects

Condensed Matter - Materials Science, Physics - Applied Physics, Physics - Chemical Physics, Physics - Computational Physics

Abstract

Here, we compare the stabilities of different III-V crystals configurations on stepped Si substrates, with or without anti-phase boundaries, for abrupt and compensated interfaces, using density functional theory. Thermodynamic stability of the different heterostructures is analyzed with an atomic scale description of charge densities distribution and mechani-cal strain. We show that the configuration where a III-V crystal adapts to a Si monoatomic step through change of charge compensation at the hetero-interface is much more stable than the configuration in which an antiphase boundary is formed. This study thus demonstrates that antiphase boundaries commonly observed in III-V/Si samples are not origi-nating from Si monoatomic step edges but from inevitable kinetically driven coalescence of monophase 3D III-V islands., Comment: 8 pages, 5figures

Published

2024

2. Inevitable Si surface passivation prior to III-V/Si epitaxy: A strong impact on wetting properties

Author

Chandrasekharan, S. Pallikkara, Gupta, D., Cornet, C., and Pedesseau, L.

Subjects

Condensed Matter - Materials Science, Physics - Applied Physics, Physics - Chemical Physics, Physics - Computational Physics

Abstract

Here, we quantitatively estimate the impact of the inevitable Si surface passivation prior to III-V/Si hetero-epitaxy on the surface energy of the Si initial substrate, and explore its consequences for the description of wetting properties. Density Functional Theory is used to determine absolute surface energies of P- and Ga-passivated Si surfaces and their dependencies with the chemical potential. Especially, we show that, while a ~90 meV/$\r{A}^2$ surface energy is usually considered for the nude Si surface, surface passivation by Ga- or P- atoms leads to a strong stabilization of the surface, with a surface energy in the [50-75 meV/$\r{A}^2$] range. The all-ab initio analysis of the wetting properties indicate that a complete wetting situation would become possible only if the initial passivated Si surface could be destabilized by at least 15 meV/$\r{A}^2$ or if the III-V (001) surface could be stabilized by the same amount., Comment: 6 pages, 4 figures

Published

2023

3. Determination of III-V/Si absolute interface energies: impact on wetting properties

Author

Chandrasekharan, S. Pallikkara, Lucci, I., Gupta, D., Cornet, C., and Pedesseau, L.

Subjects

Condensed Matter - Materials Science, Physics - Applied Physics, Physics - Chemical Physics, Physics - Computational Physics

Abstract

Here, we quantitatively determine the impact of III-V/Si interface atomic configuration on the wetting properties of the system. Based on a description at the atomic scale using density functional theory, we first show that it is possible to determine the absolute interface energies in heterogeneous materials systems. A large variety of absolute GaP surface energies and GaP/Si interface energies are then computed, confirming the large stability of charge compensated III-V/Si interfaces with an energy as low as 23 meV/\r{A}$^{2}$. While stable compensated III-V/Si interfaces are expected to promote complete wetting conditions, it is found that this can be easily counterbalanced by the substrate initial passivation, which favors partial wetting conditions., Comment: 16 pages, 9 figures

Published

2023

4. Antiphase boundaries in III-V semiconductors: Atomic configurations, band structures and Fermi levels

Author

Chen, L., Pedesseau, L., Léger, Y., Bertru, N., Even, J., and Cornet, C.

Subjects

Condensed Matter - Materials Science

Abstract

Here, we comprehensively investigate the atomic structures and electronic properties of different antiphase boundaries in III-V semiconductors with different orientations and stoichiometries, including {110}, {100}, {111}, {112} and {113} ones, based on first-principle calculations. Especially, we demonstrate how the ladder or zigzag chemical bond configuration can lead for the different cases to a gapped semiconducting band structure, to a gapped metallic band structure or to a non-gapped metallic band structure. Besides, we evidence that the ladder APB configurations impact more significantly the Fermi energy levels than the zigzag APB configurations. We finally discuss how these different band structures can have some consequences on the operation of monolithic III-V/Si devices for photonics or energy harvesting., Comment: 13 pages, 11 figures and 1 table

Published

2022

5. Influence of Schottky contact on the C-V and J-V characteristics of HTM-free perovskite solar cells

Author

Huang Y., Aharon S., Rolland A., Pedesseau L., Durand O., Etgar L., and Even J.

Subjects

Renewable energy sources, TJ807-830

Abstract

The influence of the Schottky contact is studied for hole transport material (HTM) free CH3NH3PbI3 perovskite solar cells (PSCs), by using drift-diffusion and small signal models. The basic current-voltage and capacitance-voltage characteristics are simulated in reasonable agreement with experimental data. The build in potential of the finite CH3NH3PbI3 layer is extracted from a Mott-Schottky capacitance analysis. Furthermore, hole collector conductors with work-functions of more than 5.5 eV are proposed as solutions for high efficiency HTM-free CH3NH3PbI3 PSCs.

Published

2017

6. Electronic Structure and Stability of Cs$_{2}$TiX$_{6}$ and Cs$_{2}$ZrX$_{6}$ (X$=$Br,I) Vacancy Ordered Double Perovskites

Author

Cucco, B., Bouder, G., Pedesseau, L., Katan, C., Even, J., Kepenekian, M., and Volonakis, G.

Subjects

Condensed Matter - Materials Science

Abstract

Vacancy ordered halide perovskites have been extensively investigated as promising lead-free alternatives to halide perovskites for various opto-electronic applications. Among these Cs$_{2}$TiBr$_{6}$ has been reported as a stable absorber with interesting electronic and optical properties, such as a band-gap in the visible, and long carrier diffusion lengths. Yet, a thorough theoretical analysis of the exhibited properties is still missing in order to further assess its application potential from a materials design point of view. In this letter, we perform a detailed analysis for the established Ti-based compounds and investigate the less-known materials based on Zr. We discuss in details their electronic properties and band symmetries, highlight the similarity between the materials in terms of properties, and reveal limits for tuning electronic and optical properties within this family of vacancy ordered double perovskites that share the same electron configuration. We also show the challenges to compute accurate and meaningful quasi-particle corrections at GW level. Furthermore, we address their chemical stability against different decomposition reaction pathways, identifying stable regions for the formation of all materials, while probing their mechanical stability employing phonon calculations. We predict that Cs$_{2}$ZrI$_{6}$, a material practically unexplored to-date, shall exhibit a quasi-direct electronic band-gap well within the visible range, the smallest charge carrier effective masses within the Cs$_{2}$BX$_{6}$ (B=Ti,Zr; X=Br, I) compounds, and a good chemical stability.

Published

2021

7. A universal description of III-V/Si epitaxial growth processes

Author

Lucci, I., Charbonnier, S., Pedesseau, L., Vallet, M., Cerutti, L., Rodriguez, J. -B., Tournie, E., Bernard, R., Letoublon, A., Bertru, N., Corre, A. Le, Rennesson, S., Semond, F., Patriarche, G., Largeau, L., Turban, P., Ponchet, A., and Cornet, C.

Subjects

Condensed Matter - Materials Science

Abstract

Here, we experimentally and theoretically clarify III-V/Si crystal growth processes. Atomically-resolved microscopy shows that mono-domain 3D islands are observed at the early stages of AlSb, AlN and GaP epitaxy on Si, independently of misfit. It is also shown that complete III-V/Si wetting cannot be achieved in most III-V/Si systems. Surface/interface contributions to the free energy variations are found to be prominent over strain relief processes. We finally propose a general and unified description of III-V/Si growth processes, including the description of antiphase boundaries formation., Comment: includes the manuscript file and the supplemental materials

Published

2018

8. The role of lattice mismatch on the emergence of surface states in 2D hybrid perovskite quantum wells

Author

Kepenekian, M., Traore, B., Blancon, J. -C., Pedesseau, L., Tsai, H., Nie, W., Stoumpos, C. C., Kanatzidis, M. G., Even, J., Mohite, A. D., Tretiak, S., and Katan, C.

Subjects

Condensed Matter - Materials Science

Abstract

Surface states are ubiquitous to semiconductors and significantly impact the physical properties and consequently the performance of optoelectronic devices. Moreover, surface effects are strongly amplified in lower dimensional systems such as quantum wells and nanostructures. Layered halide perovskites (LHPs) are 2D solution-processed natural quantum wells, where optoelectronic properties can be tuned by varying the perovskite layer thickness. They are efficient semiconductors with technologically relevant stability. Here, a generic elastic model and electronic structure modelling are applied to LHPs heterostructures with various layer thickness. We show that the relaxation of the interface strain is triggered by perovskite layers above a critical thickness. This leads to the release of the mechanical energy arising from the lattice mismatch, which nucleates the surface reorganization and consequently the formation of lower energy edge states. These states, which are absent in 3D perovskites, dominate the optoelectronic properties of LHPs and are anticipated to play a crucial role in the design of LHPs for optoelectronics devices.

Published

2018

9. Unusual thickness dependence of exciton characteristics in 2D perovskite quantum wells

Author

Blancon, J. -C., Stier, A. V., Tsai, H., Nie, W., Stoumpos, C. C., Traoré, B., Pedesseau, L., Kepenekian, M., Tretiak, S., Crooker, S. A., Katan, C., Kanatzidis, M. G., Crochet, J. J., Even, J., and Mohite, A. D.

Subjects

Condensed Matter - Materials Science, Physics - Optics

Abstract

Understanding the nature and energy distribution of optical resonances is of central importance in low-dimensional materials$^{1-4}$ and its knowledge is critical for designing efficient optoelectronic devices. Ruddlesden-Popper halide perovskites are 2D solution-processed quantum wells with a general formula A$_2$A'$_{n-1}$M$_n$X$_{3n+1}$, where optoelectronic properties can be tuned by varying the perovskite layer thickness (n value), and have recently emerged as efficient semiconductors with technologically relevant stability. However, fundamental questions concerning the nature of optical resonances (excitons or free-carriers) and the exciton reduced mass, and their scaling with quantum well thickness remains unresolved. Here, using optical spectroscopy and 60-Tesla magneto-absorption supported by modelling, we unambiguously demonstrate that the optical resonances arise from tightly bound excitons with unexpectedly high exciton reduced mass (0.20 m0) and binding energies varying from 470 meV to 125 meV with increasing thickness from n=1 to 5. Our work demonstrates the dominant role of Coulomb interactions in 2D solution-processed quantum wells and presents unique opportunities for next-generation optoelectronic and photonic devices., Comment: 21 pages, 5 figures

Published

2017

10. Al4SiC4 vibrational properties: Density Functional Theory calculations compared to Raman and Infrared spectroscopy measurements

Author

Pedesseau, L., Chaix-Pluchery, O., Modreanu, M., Chaussende, D., Sarigiannidou, E., Rolland, A., Even, J., and Durand, O.

Subjects

Condensed Matter - Materials Science

Abstract

Al4SiC4 is a wide band gap semiconductor with numerous potential technological applications. We report here the first thorough experimental Raman and Infrared (IR) investigation of vibrational properties of Al4SiC4 single crystals grown by high temperature solution growth method. The experimental results are compared with the full theoretical analysis of vibrational properties based on Density Functional Theory calculations that are revisited here. We have obtained a good agreement between the experimental and calculated Raman phonon modes and this allowed the symmetry assignment of all the measured Raman modes. We have revisited the DFT calculation of the IR active phonon modes and our results for LO-TO splitting indicate a substantial decrease of the variation of omega(LO-TO) compared with the previous reported calculation. Moreover, most of the IR modes have been symmetry assigned from the comparison of the experimental IR spectra with the corresponding Raman spectra and the Al4SiC4 calculated phonon modes.

Published

2016

11. Computational design of high performance hybrid perovskite on silicon tandem solar cells

Author

Rolland, A., Pedesseau, L., Beck, A., Kepenekian, M., Katan, C., Huang, Y., Wang, S., Cornet, C., Durand, O., and Even, J.

Subjects

Condensed Matter - Materials Science, Physics - Computational Physics

Abstract

In this study, the optoelectronic properties of a monolithically integrated series-connected tandem solar cell are simulated. Following the large success of hybrid organic-inorganic perovskites, which have recently demonstrated large efficiencies with low production costs, we examine the possibility of using the same perovskites as absorbers in a tandem solar cell. The cell consists in a methylammonium mixed bromide-iodide lead perovskite, CH3NH3PbI3(1-x)Br3x (0 < x < 1), top sub-cell and a single-crystalline silicon bottom sub-cell. A Si-based tunnel junction connects the two sub-cells. Numerical simulations are based on a one-dimensional numerical drift-diffusion model. It is shown that a top cell absorbing material with 20% of bromide and a thickness in the 300-400 nm range affords current matching with the silicon bottom cell. Good interconnection between single cells is ensured by standard n and p doping of the silicon at 5.10^19cm-3 in the tunnel junction. A maximum efficiency of 27% is predicted for the tandem cell, exceeding the efficiencies of stand-alone silicon (17.3%) and perovskite cells (17.9%) taken for our simulations, and more importantly, that of the record crystalline Si cells., Comment: 17 pages, 7 figures

Published

2015

12. Al4SiC4 w\'urtzite crystal: structural, optoelectronic, elastic and piezoelectric properties

Author

Pedesseau, L., Even, J., Modreanu, M., Chaussende, D., Chaix-Pluchery, O., and Durand, O.

Subjects

Condensed Matter - Materials Science

Abstract

New experimental results supported by theoretical analyses are proposed for aluminum silicon carbide (Al4SiC4). A state of the art implementation of the Density Functional Theory is used to analyze the experimental crystal structure, the Born charges, the elastic and piezoelectric properties. The Born charge tensor is correlated to the local bonding environment for each atom. The electronic band structure is computed including self-consistent many-body corrections. Al4SiC4 material properties are compared to other wide band gap W\"urtzite materials. From a comparison between an ellipsometry study of the optical properties and theoretical results, we conclude that the Al4SiC4 material has indirect and direct band gap energies of about 2.5eV and 3.2 eV respectively., Comment: 10 pages, 4 figures

Published

2015

13. An electronic model for self-assembled hybrid organic/perovskite semiconductors: reverse band edge electronic states ordering and spin-orbit coupling

Author

Even, J., Pedesseau, L., Dupertuis, M. -A., Jancu, J. -M., and Katan, C.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter

Abstract

Based on density functional theory, the electronic and optical properties of hybrid organic/perovskite crystals are thoroughly investigated. We consider the mono-crystalline 4FPEPI as material model and demonstrate the optical process is governed by three active Bloch states at the {\Gamma} point of the reduced Brillouin zone with a reverse ordering compared to tetrahedrally bonded semiconductors. Giant spin-orbit coupling effects and optical activities are subsequently inferred from symmetry analysis., Comment: 17 pages, 6 figures

Published

2012

14. Inevitable Si surface passivation prior to III-V/Si epitaxy: Strong impact on wetting properties

Author

Pallikkara Chandrasekharan, S., primary, Gupta, D., additional, Cornet, C., additional, and Pedesseau, L., additional

Published

2024

15. Extremely efficient internal exciton dissociation through edge states in layered 2D perovskites

Author

Blancon, J.-C., Tsai, H., Nie, W., Stoumpos, C. C., Pedesseau, L., Katan, C., Kepenekian, M., Soe, C. M. M., Appavoo, K., Sfeir, M. Y., Tretiak, S., Ajayan, P. M., Kanatzidis, M. G., Even, J., Crochet, J. J., and Mohite, A. D.

Published

2017

16. Determination of III-V/Si absolute interface energies: Impact on wetting properties

Author

Pallikkara Chandrasekharan, S., primary, Lucci, I., additional, Gupta, D., additional, Cornet, C., additional, and Pedesseau, L., additional

Published

2023

17. Determination of III-V/Si absolute interface energies: impact on wetting properties

Author

Pedesseau, L., Lucci, I., Chandrasekharan, S. Pallikkara, Gupta, D., and Cornet, C.

Subjects

Chemical Physics (physics.chem-ph), Condensed Matter - Materials Science, Physics - Chemical Physics, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Applied Physics (physics.app-ph), Physics - Applied Physics, Computational Physics (physics.comp-ph), Physics - Computational Physics

Abstract

Here, we quantitatively determine the impact of III-V/Si interface atomic configuration on the wetting properties of the system. Based on a description at the atomic scale using density functional theory, we first show that it is possible to determine the absolute interface energies in heterogeneous materials systems. A large variety of absolute GaP surface energies and GaP/Si interface energies are then computed, confirming the large stability of charge compensated III-V/Si interfaces with an energy as low as 23 meV/\r{A}$^{2}$. While stable compensated III-V/Si interfaces are expected to promote complete wetting conditions, it is found that this can be easily counterbalanced by the substrate initial passivation, which favors partial wetting conditions., Comment: 17 pages, 14 figures

Published

2023

18. Antiphase boundaries in III-V semiconductors: Atomic configurations, band structures, and Fermi levels

Author

Chen, L., primary, Pedesseau, L., additional, Léger, Y., additional, Bertru, N., additional, Even, J., additional, and Cornet, C., additional

Published

2022

19. Raman investigation of GaP–Si interfaces grown by molecular beam epitaxy

Author

Bondi, A., Cornet, C., Boyer, S., Nguyen Thanh, T., Létoublon, A., Pedesseau, L., Durand, O., Moreac, A., Ponchet, A., Le Corre, A., and Even, J.

Published

2013

20. Vibrational properties of SrCu2O2 studied via Density Functional Theory calculations and compared to Raman and infrared spectroscopy measurements

Author

Even, J., Pedesseau, L., Durand, O., Modreanu, M., Huyberechts, G., Servet, B., and Chaix-Pluchery, O.

Published

2013

21. Vibrational properties of 2H-PbI2 semiconductors studied via Density Functional Theory calculations

Author

Pedesseau, L., Even, J., Katan, C., Raouafi, F., Wei, Y., Deleporte, E., and Jancu, J.-M.

Published

2013

22. Ab initio calculations of polarization, piezoelectric constants, and elastic constants of InAs and InP in the wurtzite phase

Author

Hajlaoui, C., Pedesseau, L., Raouafi, F., Ben Cheikh Larbi, F., Even, J., and Jancu, J.-M.

Published

2015

23. Electronic structure and stability of Cs2TiX6 and Cs2ZrX6 (X = Br, I) vacancy ordered double perovskites

Author

Cucco, B., primary, Bouder, G., additional, Pedesseau, L., additional, Katan, C., additional, Even, J., additional, Kepenekian, M., additional, and Volonakis, G., additional

Published

2021

24. InAs QDs on InP: polarization insensitive SOA and non-radiative Auger processes

Author

Even, J., Pedesseau, L., Dore, F., and Boyer-Richard, S.

Published

2008

25. Electronic structure and stability of Cs2TiX6 and Cs2ZrX6 (X = Br, I) vacancy ordered double perovskites.

Author

Cucco, B., Bouder, G., Pedesseau, L., Katan, C., Even, J., Kepenekian, M., and Volonakis, G.

Subjects

STRUCTURAL stability, ELECTRONIC structure, CHARGE carrier lifetime, ELECTRON configuration, CHEMICAL stability, CESIUM, CESIUM compounds

Abstract

Vacancy ordered halide perovskites have been extensively investigated as promising lead-free alternatives to halide perovskites for various opto-electronic applications. Among these, Cs2TiBr6 has been reported as a stable absorber with interesting electronic and optical properties, such as a bandgap in the visible, and long carrier diffusion lengths. Yet, a thorough theoretical analysis of the exhibited properties is still missing in order to further assess its application potential from a material's design point of view. In this Letter, we perform a detailed analysis for the established Ti-based compounds and investigate the less-known materials based on Zr. We discuss in detail their electronic properties and band symmetries, highlight the similarity between the materials in terms of properties, and reveal limits for tuning electronic and optical properties within this family of vacancy ordered double perovskites that share the same electron configuration. We also show the challenges to compute accurate and meaningful quasi-particle corrections at the GW level. Furthermore, we address their chemical stability against different decomposition reaction pathways, identifying stable regions for the formation of all materials, while probing their mechanical stability employing phonon calculations. We predict that Cs2ZrI6, a material practically unexplored to date, shall exhibit a quasi-direct electronic bandgap well within the visible range, the smallest charge carrier effective masses within the Cs2BX6 (B = Ti, Zr; X = Br, I) compounds, and a good chemical stability. [ABSTRACT FROM AUTHOR]

Published

2021

26. Multiscale in modelling and validation for solar photovoltaics

Author

Hamed T.A., Adamovic N., Aeberhard U., Alonso-Alvarez D., Amin-Akhlaghi Z., Auf Der Maur M., Beattie N., Bednar N., Berland K., Birner S., Califano M., Capan I., Cerne B., Chilibon I., Connolly J.P., Juan F.C., Coutinho J., David C., Deppert K., Donchev V., Drev M., Ehlen B., Ekins-Daukes N., Even J., Fara L., Marron D.F., Gagliardi A., Garrido B., Gianneta V., Gomes M., Guillemoles J.-F., Guina M., Halme J., Hocevar M., Jacak L., Jacak W., Jaksic Z., Joseph L.K., Kassavetis S., Kazukauskas V., Kleider J.-P., Kluczyk K., Kopecek R., Krasovec U.O., Lazzari J.-L., Lifshitz E., Loncaric M., Madsen S.P., Vega A.M., Mencaraglia D., Messing M.E., Armando F.M., Nassiopoulou A.G., Neijm A., Nemcsics A., Neto V., Pedesseau L., Persson C., Petridis K., Popescu L., Pucker G., Radovanovi? J., Rimada J.C., Ristova M., Savic I., Savin H., Sendova-Vassileva M., Sengul A., Silva J., Steiner U., Storch J., Stratakis E., Tao S., Tomanek P., Tomi? S., Tukiainen A., Turan R., Ulloa J.M., Wang S., Yuksel F., Zadny J., Zarbakhsh J. and The authors are grateful for the financial support by the COST Action MP1406 'MultiscaleSolar.'

Published

2018

27. Al 4 SiC 4 vibrational properties: density functional theory calculations compared to Raman and infrared spectroscopy measurements

Author

Pedesseau, L., Chaix-Pluchery, O., Modreanu, M., Chaussende, D., Sarigiannidou, E., Rolland, A., Even, J., Durand, O., Institut des Fonctions Optiques pour les Technologies de l'informatiON (Institut FOTON), Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA)-École Nationale Supérieure des Sciences Appliquées et de Technologie (ENSSAT)-Centre National de la Recherche Scientifique (CNRS)-IMT Atlantique Bretagne-Pays de la Loire (IMT Atlantique), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT), Laboratoire des matériaux et du génie physique (LMGP ), Institut National Polytechnique de Grenoble (INPG)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Tyndall National Institute [Cork], CINES, Université de Rennes (UR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-École Nationale Supérieure des Sciences Appliquées et de Technologie (ENSSAT)-Centre National de la Recherche Scientifique (CNRS), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National Polytechnique de Grenoble (INPG)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), École Nationale Supérieure des Sciences Appliquées et de Technologie (ENSSAT)-IMT Atlantique Bretagne-Pays de la Loire (IMT Atlantique), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Centre National de la Recherche Scientifique (CNRS)-Université de Rennes 1 (UR1), and Université de Rennes (UNIV-RENNES)

Subjects

[PHYS]Physics [physics]

Abstract

International audience; Al4SiC4 is a new semiconductor with numerous potential technological applications. We report here the first thorough experimental Raman and Infrared (IR) investigation of vibrational properties of Al4SiC4 single crystals grown by high temperature solution growth method. The experimental results are compared with the full theoretical analysis of vibrational properties based on Density Functional Theory calculations that are revisited here. We have obtained a good agreement between the experimental and calculated Raman phonon modes, and this allowed the symmetry assignment of all the measured Raman modes. We have revisited the Density Functional Theory calculation of the IR active phonon modes and our results for LO-TO splitting indicate a substantial decrease of ΔωLO − TO compared with the previous reported calculation. Moreover, most of the IR modes have been symmetry assigned from the comparison of the experimental IR spectra with the corresponding Raman spectra and the Al4SiC4 calculated phonon modes.

Published

2017

28. Theoretical study of optical properties of anti phase domains in GaP.

Author

Tea, E., Vidal, J., Pedesseau, L., Cornet, C., Jancu, J.-M., Even, J., Laribi, S., Guillemoles, J.-F., and Durand, O.

Subjects

OPTICAL properties, OPTICS, GALLIUM phosphate, GALLIUM compounds, PHOSPHATES

Abstract

III-V/Si heterostructures are currently investigated for silicon photonics and solar energy conversion. In particular, dilute nitride alloy GaAsPN grown on a GaP/Si platform exhibits lattice match with Si and an optimal band gap configuration for tandem solar cell devices. However, monolithic "coherent" growth of the GaP thin layer on Si suffers from the nucleation of extended structural defects, which can hamper device operation as well as the GaP/Si interface level and through their propagation inside the overall heterostructure. However, the effect of such structural defects on optical and transport properties is actually not well understood in details. In this letter, we investigate the anti phase domains defect (also called inversion domains) by means of ab initio calculations giving insights into the alteration of optical and transport properties of GaP due to the defective GaP/Si interface. [ABSTRACT FROM AUTHOR]

Published

2014

29. Evaluation of InGaPN and GaAsPN materials lattice-matched to Si for multi-junction solar cells.

Author

Almosni, S., Robert, C., Nguyen Thanh, T., Cornet, C., Létoublon, A., Quinci, T., Levallois, C., Perrin, M., Kuyyalil, J., Pedesseau, L., Balocchi, A., Barate, P., Even, J., Jancu, J. M., Bertru, N., Marie, X., Durand, O., and Le Corre, A.

Subjects

SOLAR cells, SILICON, DIRECT energy conversion, PHOTOVOLTAIC cells, METALLIC composites

Abstract

We compare the potentiality of bulk InGaPN and GaAsPN materials quasi-lattice-matched to silicon (Si), for multi-junction solar cells application. Bandgaps of both bulk alloys are first studied by a tight-binding model modified for nitrogen incorporation in diluted regimes. The critical thicknesses of those alloys are then calculated for various compositions. For the same lattice-mismatch and nitrogen amount, the bandgap of bulk GaAsPN is found to be closer to the targeted gap value of 1.7 eV for high efficiency tandem solar cell. GaPN and GaAsPN epilayers are then grown by molecular beam epitaxy on GaP substrate and studied by photoluminescence and X-ray diffraction. A GaAsPN bulk alloy emitting light at 1.77 eV at room temperature is obtained, demonstrating promising properties for further use in III-V/Si photovoltaic multijunction solar cells. [ABSTRACT FROM AUTHOR]

Published

2013

30. Universal description of III-V/Si epitaxial growth processes

Author

Lucci, I., primary, Charbonnier, S., additional, Pedesseau, L., additional, Vallet, M., additional, Cerutti, L., additional, Rodriguez, J.-B., additional, Tournié, E., additional, Bernard, R., additional, Létoublon, A., additional, Bertru, N., additional, Le Corre, A., additional, Rennesson, S., additional, Semond, F., additional, Patriarche, G., additional, Largeau, L., additional, Turban, P., additional, Ponchet, A., additional, and Cornet, C., additional

Published

2018

31. Scaling law for excitons in 2D perovskite quantum wells

Author

Blancon, J.-C., primary, Stier, A. V., additional, Tsai, H., additional, Nie, W., additional, Stoumpos, C. C., additional, Traoré, B., additional, Pedesseau, L., additional, Kepenekian, M., additional, Katsutani, F., additional, Noe, G. T., additional, Kono, J., additional, Tretiak, S., additional, Crooker, S. A., additional, Katan, C., additional, Kanatzidis, M. G., additional, Crochet, J. J., additional, Even, J., additional, and Mohite, A. D., additional

Published

2018

32. Monolithic Integration of Diluted-Nitride III–V-N Compounds on Silicon Substrates: Toward the III–V/Si Concentrated Photovoltaics

Author

Durand, O., primary, Almosni, S., additional, Ping Wang, Y., additional, Cornet, C., additional, Létoublon, A., additional, Robert, C., additional, Levallois, C., additional, Pedesseau, L., additional, Rolland, A., additional, Even, J., additional, Jancu, J.M., additional, Bertru, N., additional, Le Corre, A., additional, Mandorlo, F., additional, Lemiti, M., additional, Rale, P., additional, Lombez, L., additional, Guillemoles, J.-F., additional, Laribi, S., additional, Ponchet, A., additional, and Stodolna, J., additional

Published

2018

33. Multiscale in modelling and validation for solar photovoltaics

Author

Hamed, T A, Adamovic, N, Aeberhard, U, Alonso-Alvarez, D, Amin-Akhlaghi, Z, Auf Der Maur, M, Beattie, N, Bednar, N, Berland, K, Birner, S, Califano, M, Capan, I, Cerne, B, Chilibon, I, Connolly, J P, Juan, F C, Coutinho, J, David, C, Deppert, K, Donchev, V, Drev, M, Ehlen, B, Ekins-Daukes, N, Even, J, Fara, L, Marron, D F, Gagliardi, A, Garrido, B, Gianneta, V, Gomes, M, Guillemoles, J.-F., Guina, M, Halme, J, Hocevar, M, Jacak, L, Jacak, W, Jakšić, Zoran, Joseph, L K, Kassavetis, S, Kazukauskas, V, Kleider, J.-P., Kluczyk, K, Kopecek, R, Krasovec, U O, Lazzari, J.-L., Lifshitz, E, Loncaric, M, Madsen, S P, Vega, A M, Mencaraglia, D, Messing, M E, Armando, F M, Nassiopoulou, A G, Neijm, A, Nemcsics, A, Neto, V, Pedesseau, L, Persson, C, Petridis, K, Popescu, L, Pucker, G, Radovanović, Jelena, Rimada, J C, Ristova, M, Savic, I, Savin, H, Sendova-Vassileva, M, Sengul, A, Silva, J, Steiner, U, Storch, J, Stratakis, E, Tao, S, Tomanek, P, Tomić, Stanko, Tukiainen, A, Turan, R, Ulloa, J M, Wang, S, Yuksel, F, Zadny, J, Zarbakhsh, J, Hamed, T A, Adamovic, N, Aeberhard, U, Alonso-Alvarez, D, Amin-Akhlaghi, Z, Auf Der Maur, M, Beattie, N, Bednar, N, Berland, K, Birner, S, Califano, M, Capan, I, Cerne, B, Chilibon, I, Connolly, J P, Juan, F C, Coutinho, J, David, C, Deppert, K, Donchev, V, Drev, M, Ehlen, B, Ekins-Daukes, N, Even, J, Fara, L, Marron, D F, Gagliardi, A, Garrido, B, Gianneta, V, Gomes, M, Guillemoles, J.-F., Guina, M, Halme, J, Hocevar, M, Jacak, L, Jacak, W, Jakšić, Zoran, Joseph, L K, Kassavetis, S, Kazukauskas, V, Kleider, J.-P., Kluczyk, K, Kopecek, R, Krasovec, U O, Lazzari, J.-L., Lifshitz, E, Loncaric, M, Madsen, S P, Vega, A M, Mencaraglia, D, Messing, M E, Armando, F M, Nassiopoulou, A G, Neijm, A, Nemcsics, A, Neto, V, Pedesseau, L, Persson, C, Petridis, K, Popescu, L, Pucker, G, Radovanović, Jelena, Rimada, J C, Ristova, M, Savic, I, Savin, H, Sendova-Vassileva, M, Sengul, A, Silva, J, Steiner, U, Storch, J, Stratakis, E, Tao, S, Tomanek, P, Tomić, Stanko, Tukiainen, A, Turan, R, Ulloa, J M, Wang, S, Yuksel, F, Zadny, J, and Zarbakhsh, J

Abstract

Photovoltaics is amongst the most important technologies for renewable energy sources, and plays a key role in the development of a society with a smaller environmental footprint. Key parameters for solar cells are their energy conversion efficiency, their operating lifetime, and the cost of the energy obtained from a photovoltaic system compared to other sources. The optimization of these aspects involves the exploitation of new materials and development of novel solar cell concepts and designs. Both theoretical modeling and characterization of such devices require a comprehensive view including all scales from the atomic to the macroscopic and industrial scale. The different length scales of the electronic and optical degrees of freedoms specifically lead to an intrinsic need for multiscale simulation, which is accentuated in many advanced photovoltaics concepts including nanostructured regions. Therefore, multiscale modeling has found particular interest in the photovoltaics community, as a tool to advance the field beyond its current limits. In this article, we review the field of multiscale techniques applied to photovoltaics, and we discuss opportunities and remaining challenges. © T. Abu Hamed et al., published by EDP Sciences, 2018.

Published

2018

34. Multiscale in modelling and validation for solar photovoltaics

Author

Hamed T.A., Adamovic N., Aeberhard U., Alonso-Alvarez D., Amin-Akhlaghi Z., Auf Der Maur M., Beattie N., Bednar N., Berland K., Birner S., Califano M., Capan I., Cerne B., Chilibon I., Connolly J.P., Juan F.C., Coutinho J., David C., Deppert K., Donchev V., Drev M., Ehlen B., Ekins-Daukes N., Even J., Fara L., Marron D.F., Gagliardi A., Garrido B., Gianneta V., Gomes M., Guillemoles J.-F., Guina M., Halme J., Hocevar M., Jacak L., Jacak W., Jaksic Z., Joseph L.K., Kassavetis S., Kazukauskas V., Kleider J.-P., Kluczyk K., Kopecek R., Krasovec U.O., Lazzari J.-L., Lifshitz E., Loncaric M., Madsen S.P., Vega A.M., Mencaraglia D., Messing M.E., Armando F.M., Nassiopoulou A.G., Neijm A., Nemcsics A., Neto V., Pedesseau L., Persson C., Petridis K., Popescu L., Pucker G., Radovanović J., Rimada J.C., Ristova M., Savic I., Savin H., Sendova-Vassileva M., Sengul A., Silva J., Steiner U., Storch J., Stratakis E., Tao S., Tomanek P., Tomić S., Tukiainen A., Turan R., Ulloa J.M., Wang S., Yuksel F., Zadny J., Zarbakhsh J., Hamed T.A., Adamovic N., Aeberhard U., Alonso-Alvarez D., Amin-Akhlaghi Z., Auf Der Maur M., Beattie N., Bednar N., Berland K., Birner S., Califano M., Capan I., Cerne B., Chilibon I., Connolly J.P., Juan F.C., Coutinho J., David C., Deppert K., Donchev V., Drev M., Ehlen B., Ekins-Daukes N., Even J., Fara L., Marron D.F., Gagliardi A., Garrido B., Gianneta V., Gomes M., Guillemoles J.-F., Guina M., Halme J., Hocevar M., Jacak L., Jacak W., Jaksic Z., Joseph L.K., Kassavetis S., Kazukauskas V., Kleider J.-P., Kluczyk K., Kopecek R., Krasovec U.O., Lazzari J.-L., Lifshitz E., Loncaric M., Madsen S.P., Vega A.M., Mencaraglia D., Messing M.E., Armando F.M., Nassiopoulou A.G., Neijm A., Nemcsics A., Neto V., Pedesseau L., Persson C., Petridis K., Popescu L., Pucker G., Radovanović J., Rimada J.C., Ristova M., Savic I., Savin H., Sendova-Vassileva M., Sengul A., Silva J., Steiner U., Storch J., Stratakis E., Tao S., Tomanek P., Tomić S., Tukiainen A., Turan R., Ulloa J.M., Wang S., Yuksel F., Zadny J., and Zarbakhsh J.

Published

2018

35. Computational design of high performance hybrid perovskite on silicon tandem solar cells

Author

Rolland, Alain, Pedesseau, L., Beck, Alexandre, Kepenekian, Mikael, Katan, Claudine, Huang, Yong, Wang, Shijian, Cornet, C., Durand, Olivier, Even, J, Fonctions Optiques pour les Technologies de l'informatiON (FOTON), Université de Rennes (UR)-Université européenne de Bretagne - European University of Brittany (UEB)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-École Nationale Supérieure des Sciences Appliquées et de Technologie (ENSSAT)-Télécom Bretagne-Centre National de la Recherche Scientifique (CNRS), Institut des Sciences Chimiques de Rennes (ISCR), Université de Rennes (UR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Université européenne de Bretagne - European University of Brittany (UEB)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA)-École Nationale Supérieure des Sciences Appliquées et de Technologie (ENSSAT)-Télécom Bretagne-Centre National de la Recherche Scientifique (CNRS), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), and Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Solar cells, [PHYS]Physics [physics], Condensed Matter - Materials Science, tandem cell, Silicon, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Computational Physics (physics.comp-ph), Hybrid Perovskite, [PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci], [CHIM]Chemical Sciences, [PHYS.COND]Physics [physics]/Condensed Matter [cond-mat], Physics - Computational Physics, drift diffusion simulation

Abstract

In this study, the optoelectronic properties of a monolithically integrated series-connected tandem solar cell are simulated. Following the large success of hybrid organic-inorganic perovskites, which have recently demonstrated large efficiencies with low production costs, we examine the possibility of using the same perovskites as absorbers in a tandem solar cell. The cell consists in a methylammonium mixed bromide-iodide lead perovskite, CH3NH3PbI3(1-x)Br3x (0 < x < 1), top sub-cell and a single-crystalline silicon bottom sub-cell. A Si-based tunnel junction connects the two sub-cells. Numerical simulations are based on a one-dimensional numerical drift-diffusion model. It is shown that a top cell absorbing material with 20% of bromide and a thickness in the 300-400 nm range affords current matching with the silicon bottom cell. Good interconnection between single cells is ensured by standard n and p doping of the silicon at 5.10^19cm-3 in the tunnel junction. A maximum efficiency of 27% is predicted for the tandem cell, exceeding the efficiencies of stand-alone silicon (17.3%) and perovskite cells (17.9%) taken for our simulations, and more importantly, that of the record crystalline Si cells., 17 pages, 7 figures

Published

2016

36. Numerical simulation of HTM-free and WOx based perovskite cells: Effects of interface conditions

Author

Huang, Y., primary, Aharon, S., additional, Gheno, A., additional, Vedraine, S., additional, Pedesseau, L., additional, Burin, J. P., additional, Durand, O., additional, Boucle, J., additional, Etgar, L., additional, Even, J., additional, and Rolland, A., additional

Published

2017

37. Computational design of high performance hybrid perovskite on silicon 2-T tandem solar cells based on a tunnel junction

Author

Rolland, A., primary, Pedesseau, L., additional, Huang, Y., additional, Wang, S., additional, Sapori, D., additional, Cornet, C., additional, Durand, O., additional, Even, J., additional, Kepenekian, M., additional, and Katan, C., additional

Published

2017

38. Al4SiC4vibrational properties: density functional theory calculations compared to Raman and infrared spectroscopy measurements

Author

Pedesseau, L., primary, Chaix-Pluchery, O., additional, Modreanu, M., additional, Chaussende, D., additional, Sarigiannidou, E., additional, Rolland, A., additional, Even, J., additional, and Durand, O., additional

Published

2017

39. Dielectric properties of hybrid perovskites and drift-diffusion modeling of perovskite cells

Author

Pedesseau, L., additional, Kepenekian, M., additional, Sapori, D., additional, Huang, Y., additional, Rolland, A., additional, Beck, A., additional, Cornet, C., additional, Durand, O., additional, Wang, S., additional, Katan, C., additional, and Even, J., additional

Published

2016

40. Theoretical studies of Rashba and Dresselhaus effects in hybrid organic-inorganic perovskites for optoelectronic applications

Author

Pedesseau, L., additional, Kepenekian, M., additional, Robles, R., additional, Sapori, D., additional, Katan, C., additional, and Even, J., additional

Published

2016

41. Correction: Interplay of spin–orbit coupling and lattice distortion in metal substituted 3D tri-chloride hybrid perovskites

Author

Katan, C., primary, Pedesseau, L., additional, Kepenekian, M., additional, Rolland, A., additional, and Even, J., additional

Published

2016

42. Al4SiC4 wurtzite crystal: Structural, optoelectronic, elastic, and piezoelectric properties

Author

Pedesseau, L., primary, Even, J., additional, Modreanu, M., additional, Chaussende, D., additional, Sarigiannidou, E., additional, Chaix-Pluchery, O., additional, and Durand, O., additional

Published

2015

43. First-principles calculations of band offsets and polarization effects at InAs/InP interfaces

Author

Hajlaoui, C, primary, Pedesseau, L, additional, Raouafi, F, additional, Ben Cheikh Larbi, F, additional, Even, J, additional, and Jancu, J-M, additional

Published

2015

44. Al4SiC4 vibrational properties: density functional theory calculations compared to Raman and infrared spectroscopy measurements.

Author

Pedesseau, L., Chaix‐Pluchery, O., Modreanu, M., Chaussende, D., Sarigiannidou, E., Rolland, A., Even, J., and Durand, O.

Subjects

VIBRATIONAL spectra, DENSITY functional theory, RAMAN spectroscopy, INFRARED spectroscopy, NUMERICAL calculations, HIGH temperatures

Abstract

Al4SiC4 is a new semiconductor with numerous potential technological applications. We report here the first thorough experimental Raman and Infrared (IR) investigation of vibrational properties of Al4SiC4 single crystals grown by high temperature solution growth method. The experimental results are compared with the full theoretical analysis of vibrational properties based on Density Functional Theory calculations that are revisited here. We have obtained a good agreement between the experimental and calculated Raman phonon modes, and this allowed the symmetry assignment of all the measured Raman modes. We have revisited the Density Functional Theory calculation of the IR active phonon modes and our results for LO-TO splitting indicate a substantial decrease of Δ ω LO − TO compared with the previous reported calculation. Moreover, most of the IR modes have been symmetry assigned from the comparison of the experimental IR spectra with the corresponding Raman spectra and the Al4SiC4 calculated phonon modes. Copyright © 2017 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2017

45. Interplay of spin–orbit coupling and lattice distortion in metal substituted 3D tri-chloride hybrid perovskites

Author

Katan, C., primary, Pedesseau, L., additional, Kepenekian, M., additional, Rolland, A., additional, and Even, J., additional

Published

2015

46. Theoretical insights into multibandgap hybrid perovskites for photovoltaic applications

Author

Even, J., additional, Pedesseau, L., additional, and Katan, C., additional

Published

2014

47. Composition dependent nature of the fundamental optical transition in (In, Ga)As/GaP quantum dots

Author

Robert, C., primary, Cornet, C., additional, Nguyen Thanh, T., additional, Nestoklon, M. O., additional, Pereira da Silva, K., additional, Alonso, M. I., additional, Goni, A. R., additional, Tricot, S., additional, Turban, P., additional, Perrin, M., additional, Folliot, H., additional, Rohel, T., additional, Pedesseau, L., additional, Jancu, J.-M, additional, Even, J., additional, Mauger, S., additional, Koenraad, P. M., additional, Balocchi, A., additional, Barate, P., additional, Marie, X., additional, Bertru, N., additional, Le Corre, A., additional, and Durand, O., additional

Published

2014

48. Strain-induced fundamental optical transition in (In,Ga)As/GaP quantum dots

Author

Robert, C., primary, Nestoklon, M. O., additional, Pereira da Silva, K., additional, Pedesseau, L., additional, Cornet, C., additional, Alonso, M. I., additional, Goñi, A. R., additional, Turban, P., additional, Jancu, J.-M., additional, Even, J., additional, and Durand, O., additional

Published

2014

49. Monolithic Integration of Diluted-Nitride III–V-N Compounds on Silicon Substrates: Toward the III–V/Si Concentrated Photovoltaics

Author

Durand, O., primary, Almosni, S., additional, Ping Wang, Y., additional, Cornet, C., additional, Létoublon, A., additional, Robert, C., additional, Levallois, C., additional, Pedesseau, L., additional, Rolland, A., additional, Even, J., additional, Jancu, J.M., additional, Bertru, N., additional, Le Corre, A., additional, Mandorlo, F., additional, Lemiti, M., additional, Rale, P., additional, Lombez, L., additional, Guillemoles, J.-F., additional, Laribi, S., additional, Ponchet, A., additional, and Stodolna, J., additional

Published

2014

50. Comment on “Density functional theory analysis of structural and electronic properties of orthorhombic perovskite CH3NH3PbI3” by Y. Wang et al., Phys. Chem. Chem. Phys., 2014, 16, 1424–1429

Author

Even, J., primary, Pedesseau, L., additional, and Katan, C., additional

Published

2014