By clicking “Accept All Cookies”, you agree to the storing of cookies on your device to enhance site navigation, analyze site usage, and assist in our marketing efforts. View our Privacy Policy for more information.
DenyAccept
Background moutain Attolight

Scientific References on Cathodoluminescence

Explore a comprehensive collection of scientific references in the field of cathodoluminescence. These publications highlight the precision and capabilities of Attolight's cutting-edge technology in advancing scientific discovery.

All year
2025
2024
2023
2022
2021
2020
2019
2018
2017
2016
2015
2014
2013
2012
2011
2010
2009
All Techniques
Thank you! Your submission has been received!
Oops! Something went wrong while submitting the form.
Tuning the Structural Isomers of Phenylenediammonium Cations to Afford Efficient and Stable Perovskite Solar Cells and Modules LIU, Cheng, YANG, Yi, RAKSTYS, Kasparas, et al. Nature Communications, 2021, vol. 12, p. 6394 2021
doi
Cathodoluminescence spectroscopy
2021
SEM-CL
Phenylenediammonium Cations, Perovskite Solar Cells, Structural Isomers
Multimodal host–guest complexation for efficient and stable perovskite photovoltaics ZHANG, H., EICKEMEYER, F. T., ZHOU, Z., MLADENOVIC, M., JAHANBAKHSHI, F., MERTEN, L., … & GRATZEL, M. Nature Communications, 2021, vol. 12, p. 1-11 2021
doi
Cathodoluminescence spectroscopy
2021
SEM-CL
Host–Guest Complexation, Perovskite Photovoltaics, Stability
Multimicroscopy of cross-section zincblende GaN LED heterostructure DING, Boning, FRENTUP, Martin, FAIRCLOUGH, Simon M., et al. Journal of Applied Physics, 2021, vol. 130, no. 11, p. 115705 2021
doi
Cathodoluminescence spectroscopy
2021
SEM-CL
Zincblende GaN, LED Heterostructure, Multimicroscopy
Over 15% efficient wide-band-gap Cu(In,Ga)S2 solar cell: Suppressing bulk and interface recombination through composition engineering SHUKLA, Sudhanshu, SOOD, Mohit, ADELEYE, Damilola, PEEDLE, Sean, KUSCH, Gunnar, DAHLIAH, Diana, MELCHIORRE, Michele, RIGNANESE, Gian-Marco, HAUTIER, Geoffroy, OLIVER, Rachel, SIEBENTRITT, Susanne Joule, 2021, Available online 7 June 2021 2021
doi
Cathodoluminescence spectroscopy
2021
SEM-CL
Cu(In,Ga)S2, Solar Cells, Composition Engineering
Time-Resolved Cathodoluminescence in an Ultrafast Transmission Electron Microscope MEURET, Sophie, TIZEI, L.H.G., HOUDELLIER, F., WEBER, S., AUAD, Y., TENCE, M., CHANG, H.-C., KOCIACK, M., ARBOUET, A. Appl. Phys. Lett., 2021, vol. 119, 062106 2021
doi
Cathodoluminescence spectroscopy
2021
STEM-CL
Time-resolved cathodoluminescence, Ultrafast transmission electron microscopy
Temperature dependence of cathodoluminescence emission in irradiated Si-doped β-Ga2O3 MODAK, Sushrut, CHERNYAK, Leonid, SCHULTE, Alfons, et al. AIP Advances, 2021, vol. 11, no. 12, p. 125014 2021
doi
Cathodoluminescence spectroscopy
2021
SEM-CL
Cathodoluminescence, Si-doped β-Ga2O3, Irradiation
Optical properties and carrier dynamics in Co-doped ZnO nanorods A. K. Sivan, A. Galan-Gonzalez, L. Di Mario, N. Tappy, J. Hernandez-Ferrer, D. Catone, S. Turchini, A. M. Benito, W. K. Maser, S. Escobar Steinvall, A. Fontcuberta i Morral, A. Gallant, D. A. Zeze, D. Atkinson, F. Martelli Nanoscale Advances, 2021, vol. 3, p. 214-222 2021
doi
Cathodoluminescence spectroscopy
2021
SEM-CL
Co-doped ZnO, Nanorods, Carrier Dynamics
Point Defects in InGaN/GaN Core–Shell Nanorods: Role of the Regrowth Interface LOETO, K., KUSCH, G., COULON, P.-M., FAIRCLIOUGH, S. M., LE BOULBAR, E., GIRGEL, I., SHIELDS, P. A., OLIVER, R. A. Nano Express, 2021, vol. 2, p. 014005 2021
doi
Cathodoluminescence spectroscopy
Panchromatic CL imaging
2021
SEM-CL
Point Defects, InGaN/GaN Nanorods, Regrowth Interface
Quantitative Assessment of Carrier Density by Cathodoluminescence. II. GaAs Nanowires CHEN, H.-L., DE LEPINAU, R., SCACCABAROZZI, A., OEHLER, F., HARMAND, J.-C., CATTONI, A., COLLINS, S. Physical Review Applied, 2021, vol. 15, p. 024007 2021
doi
Cathodoluminescence spectroscopy
Quantitative Cathodoluminescence
2021
SEM-CL
Carrier Density, Cathodoluminescence, GaAs Nanowires
Quantitative Assessment of Carrier Density by Cathodoluminescence. I. GaAs Thin Films and Modeling CHEN, H.-L., SCACCABAROZZI, A., DE LEPINAU, R., OEHLER, F., LEMAITRE, A., HARMAND, J.-C., CATTONI, A., COLLINS, S. Physical Review Applied, 2021, vol. 15, p. 024006 2021
doi
Cathodoluminescence spectroscopy
Quantitative Cathodoluminescence
2021
SEM-CL
Carrier Density, Cathodoluminescence, GaAs Thin Films
Investigation of the effect of the doping order in GaN nanowire p-n junctions grown by molecular-beam epitaxy O. Saket, J. Wang, N. Amador-Mendez, M. Morass, A. K. Kunti, F. Bayle, S. Collin, A. Jollivet, A. Babichev, T. Sodhi, J.-C. Harmand, F. Julien, N. Gogneau, M. Tchernycheva Nanotechnology, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Doping Order, GaN Nanowire, p-n Junctions
Probing plasmonic excitation mechanisms and far-field radiation of single-crystalline gold tapers with electrons LINGSTADT, R., TALEBI, N., GUO, S., SIGLE, W., CAMPOS, A., KOCIACK, M., ESMANN, M., BECKER, S. F., OKUNISHI, E., MUKAI, M., LIENAU, C., VAN AKEN, P. A. Phil. Trans. R. Soc. A, 2020, 378, 20190599 2020
doi
Cathodoluminescence spectroscopy
2020
STEM-CL
Plasmonic excitation, Far-field radiation, Gold tapers, Single-crystalline
Spatial and spectral dynamics in STEM hyperspectral imaging using random scan patterns ZOBELLI, Alberto, WOO, Steffi Y., TARARAN, Anna, et al. Ultramicroscopy, 2020, vol. 212, p. 112912 2020
doi
Cathodoluminescence spectroscopy
2020
STEM-CL
STEM, Hyperspectral imaging, Random scan patterns, Spatial dynamics, Spectral dynamics
X-Ray Diffraction Micro-Strain Analysis for Extraction of Threading Dislocation Density of GaN Films Grown on Silicon, Sapphire and SiC Substrates Victor Yon, Nevine Rochat, Matthew Charles, Emmanuel Nolot, Patrice Gergaud Physica Status Solidi B, 257: 1900579, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
X-Ray Diffraction, Dislocation Density, GaN Films
Multiple morphologies and functionality of nanowires made from earth-abundant zinc phosphide S. Escobar Steinvall, N. Tappy, M. Ghasemi, R. R. Zamani, T. LaGrange, E. Z. Stutz, J.-B. Leran, M. Zamani, R. Paula, A. Fontcuberta i Morral Nanoscale Horizons, 5, 274, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Zinc Phosphide, Nanowires, Morphologies
Characterization of micro-pixelated InGaP/AlGaInP quantum well structures Y. Boussadi, N. Rochat, J. P. Barnes, B. B. Bakir, P. Ferrandis, B. Masenelli, C. Licitra Light-Emitting Devices, Materials, and Applications XXIV (Vol. 11302, p. 1130221), International Society for Optics and Photonics, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
InGaP/AlGaInP Quantum Wells, Micro-Pixelated Structures
Facet-driven formation of axial and radial In(Ga)As clusters in GaAs nanowires A. Balgarkashi, S. Ramanandan, N. Tappy, W. Kim, L. Guniat, M. Friedl, N. Morgan, D. Dede, J-B. Leran, A. Fontcuberta i Morral Journal of Optics, 22, 084002, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Facet-Driven Formation, In(Ga)As Clusters, GaAs Nanowires
Defect Filtering for Thermal Expansion Induced Dislocations in III-V Lasers on Silicon J. Selvidge, J. Norman, E. T. Hughes, C. Shang, D. Jung, A. A. Taylor, K. Mukherjee arXiv preprint arXiv:2005.06066, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Thermal Expansion, Dislocations, III-V Lasers
CVT and PVT growth and characterization of GaS crystals G. Attolini, M. Negri, T. Besagni, B. Pecz, I. Cora Materials Science and Engineering: B, 261, 114623, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
GaS Crystals, CVT Growth, PVT Growth
Effect of Strains and V-Shaped Pit Structures on the Performance of GaN-Based Light-Emitting Diodes Shuo-Wei Chen, Chia-Jui Chang, Tien-Chang Lu Crystals, 10(4), 311, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Strains, V-Shaped Pit Structures, GaN-Based LEDs
Contactless Investigation of the p-Type Doping Concentration Level of Single Micrometric Size GaAs Crystals Grown on Silicon for Multijunction Solar Cells A. Jaffre, J. Alvarez, H.-L. Chen, H. Makhloufi, C. Renard, F. Loete, S. Collin, J. P. Connolly, J.-P. Kleider, D. Mencaraglia 35th European Photovoltaic Solar Energy Conference and Exhibition (EU-PVSEC), 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
p-Type Doping, GaAs Crystals, Multijunction Solar Cells
Recombination-enhanced dislocation climb in InAs quantum dot lasers on silicon K. Mukherjee, J. Selvidge, D. Jung, et al. Journal of Applied Physics, 128(2), 025703, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Recombination-Enhanced Dislocation, InAs Quantum Dot Lasers
Cathodoluminescence Nanoscopy of 3D Plasmonic Networks R. Ron, M. S. Zielinski, A. Salomon Nano Letters, 20, 11, 8205–8211, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Cathodoluminescence, Plasmonic Networks, Nanoscopy
Cathodoluminescence spatially resolves optical transitions in thick group-III and N-polar InGaN films A. Bansa, J. M. Redwing, Z. Y. Al Balushi Journal of Applied Physics, 128, 175305, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Cathodoluminescence, Optical Transitions, InGaN Films
Impact of electron injection on carrier transport and recombination in unintentionally doped GaN S. Modak, L. Chernyak, M. Xian, F. Ren, S. J. Pearton, S. Khodorov, I. Lubomirsky, Z. Dashevsky Journal of Applied Physics, 128(8), 085702, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Electron Injection, Carrier Transport, GaN
Correlated optical and electrical analyses of inhomogeneous core/shell InGaN/GaN nanowire light emitting diodes H. Zhang, V. Piazza, V. Neplokh, N. Guan, F. Bayle, S. Collin, L. Largeau, A. Babichev, F. H Julien, M. Tchernycheva Nanotechnology, 32, 105202, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Core/Shell, InGaN/GaN, Nanowire LEDs
Heterotwin Zn3P2 superlattice nanowires: the role of indium insertion in the superlattice formation mechanism and their optical properties S. Escobar Steinvall, L. Ghisalberti, R. R. Zamani, N. Tappy, F. S. Hage, E. Stutz, M. Zamani, R. Paul, J.-B. Leran, Q. M. Ramasse, W. C. Carter, A. Fontcuberta i Morral arXiv preprint arXiv:2009.01533, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Zn3P2 Superlattice, Indium Insertion, Optical Properties
Efficient light-emitting diodes from mixed-dimensional perovskites on a fluoride interface B. Zhao, Y. Lian, L. Cui, G. Divitini, G. Kusch, E. Ruggeri, F. Auras, W. Li, D. Yang, B. Zhu, R. A. Oliver, J. L. MacManus-Driscoll, S. D. Stranks, D. Di, R. H. Friend Nature Electronics, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Light-Emitting Diodes, Mixed-Dimensional Perovskites, Fluoride Interface
InGaN Quantum Dots Studied by Correlative Microscopy Techniques for Enhanced Light-Emitting Diodes I. Dimkou, E. Di Russo, P. Dalapati, J. Houard, N. Rochat, D. Cooper, E. Bellet-Amarlic, A. Grenier, E. Monroy, L. Rigutti ACS Applied Nano Materials, 3, 10, 10133–10143, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
InGaN Quantum Dots, Microscopy Techniques, Light-Emitting Diodes
Continuous and Time-Resolved Cathodoluminescence Studies of Electron Injection Induced Effects in Gallium Nitride S. Modak, L. Chernyak, I. Lubomirsky, S. Khodorov In: Palestini C. (eds), Advanced Technologies for Security Applications. NATO Science for Peace and Security Series B: Physics and Biophysics, Springer, Dordrecht, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Cathodoluminescence, Electron Injection, Gallium Nitride
Halide Homogenization for High-Performance Blue Perovskite Electroluminescence L. Cheng, C. Yi, Y. Tong, L. Zhu, G. Kusch, X. Wang, T. Jiang, H. Zhang, J. Zhang, C. Xue, H. Chen, W. Xu, D. Liu, R. A. Oliver, R. H. Friend, L. Zhang, N. Wang, W. Huang, J. Wang AAAS Research, 2020, Article ID 9017871 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Halide Homogenization, Blue Perovskite, Electroluminescence
Advances in Cathodoluminescence: Recent steps toward Semiconductor Fabs and FA Labs C. Monachon, M. Davies, ADFAAO Compound Semiconductor, 2020, 4:28-33 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Cathodoluminescence, Semiconductor Fabs, FA Labs
Mechanical stress in InP and GaAs ridges formed by reactive ion etching J. P. Landesman, M. Fouchier, E. Pargon, S. Gerard, N. Rochat, C. Levallois, M. Mokhtari, P. Pagnod-Rossiaux, F. Laruelle, C. Petit-Etienne, M. Bettiati, J. Jimenez, D. T. Cassidy Journal of Applied Physics, 128(22), 225705, 2020 2020
doi
Cathodoluminescence spectroscopy
Degree of Polarization (DoP)
2020
SEM-CL
Mechanical Stress, InP, GaAs, Reactive Ion Etching
Growth and characterisation of earth-abundant semiconductor nanostructures for solar energy harvesting S. R. Escobar Steinvall Thesis No. 8213, EPFL, 2020 2020
doi
Cathodoluminescence spectroscopy
2020
SEM-CL
Semiconductor Nanostructures, Solar Energy Harvesting
Quantitative Nanoscale Absorption Mapping: A Novel Technique To Probe Optical Absorption of Two-Dimensional Materials Marco Negri, Luca Francaviglia, Dumitru Dumcenco, Matteo Bosi, Daniel Kaplan, Venkataraman Swaminathan, Giancarlo Salviati, Andras Kis, Filippo Fabbri, Anna Fontcuberta i Morral Nano Letters, 20, 1, 567-576, 2020 2020
doi
Cathodoluminescence spectroscopy
Quantitative Cathodoluminescence
2020
SEM-CL
Nanoscale Absorption Mapping, Optical Absorption, Two-Dimensional Materials
Stimulated electron energy loss and gain in an electron microscope without a pulsed electron gun DAS, P., BLazit, J. D., TENCÉ, M., ZAGONEL, L. F., AUAD, Y., LEE, Y., LING, X. Y., LOSQUIN, A., COLLIEX, C., STEPHAN, O., et al. Ultramicroscopy, 2019, Aug; 203:44-51 2019
doi
Cathodoluminescence spectroscopy
2019
STEM-CL
Electron energy loss, Electron microscope, Stimulated emission, Pulsed electron gun
No Results found.

Please try adjusting your filters or resetting them to view more options.

Ready to revolutionize your materials characterization approach?

Get in touch with us today to discover how our state-of-the-art cathodoluminescence tools can elevate your research and industry applications.
Already more than 30 systems installed globally!
Contact us
Technology

About Cathodoluminescence

Attolight’s technology is based on cathodoluminescence spectroscopy technology. Cathodoluminescence (CL) is a well known phenomenon that refers to the light emitted by any material under electron irradiation. The best known cathodoluminescence application is former television sets based on cathode ray tubes. CL becomes a very powerful defect inspection method when implemented in a modern electron microscope (EM) that is capable of fast, non-destructive defect inspection on a full wafer scale. Although cathodoluminescence has been known for a long time, technical implementations have been limited to manual laboratory use.

More about Cathodoluminescence
Dashboard mockup