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Allalin

Hybridized SEM – Spectroscopic Platform

  • SEM – Quantitative Cathodoluminescence (qCL)
  • Spectroscopic Analysis (Photoluminescence, Raman, …)
  • Time-resolved measurements (TRCL, TRPL, g², …)
  • Electrical Measurements (EBIC/EBAC)
  • Room to low-temperature analyses (<10K)
  • Cryo-compatible Nanoprobes
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Characteristics

About our Hybridized SEM – Spectroscopic Platform

The Allalin is a nanometer-resolution SEM-spectroscopic instrument featuring a unique optical collection objective integrated within the SEM column, which allows for robust and repeatable measurements, enabling quantitative cathodoluminescence (qCL) analysis.

One Platform, Multiple Measurement Possibilities

The Allalin platform supports a wide range of spectroscopic analysis techniques, utilizing multiple sources (electron beam or laser, in continuous or pulsed mode) and various detectors (SE detector, PMT, CCD/Streak cameras, InGaAs/TCSPC/HPD detectors).

The system can also be equipped with options like in-SEM electrical probing, Raman spectroscopy, Photoluminescence, and HBT setup for g(2) autocorrelation measurement.

Different stage options are available to accommodate samples as small as a few micrometers to wafers up to 6 inches.

Finally, spectroscopic analyses can be conducted at temperatures ranging from 10 K to 320 K, thanks to an integrated helium cryostat and a unique hexapod-based stage design, which ensures high stability and very low drift (<5 nm/min).

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Trusted by top semiconductor companies and prestigious research institutes worldwide

Applications

Related Applications Using the Allalin Platform

Discover how the Allalin platform can support your research.

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Process development
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Materials Science
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Micro/Nanowire
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GaN device
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Life Science
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Power electronics
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Optoelectronics
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Application

Applications on Defect Visualization and Counting in Optoelectronic Materials

Find out how CL can quantify defects in optoelectronic materials
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Applications on Semiconducting Diamond

Find out how CL can investigate semiconducting properties of diamond
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Applications on Photovoltaic Materials

Find out how CL can investigate QD nanowires
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Applications on Hyperspectral Mapping with high Spatial Resolution for Optoelectronic Devices

Find out how CL can defect defects in optoelectronic materials
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Applications on GaN for Power Electronic

Find out how CL can investigate QD nanowires
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Applications on ZnO micro/nanowire Materials

Find out how CL can investigate QD nanowires
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Pinhole Detection in Photovoltaic and Thin Film Battery Materials

Find out how CL helps to improve device performances
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Applications on Quantum Heterostructures

Find out how CL can investigate QD nanowires
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Comprehensive defect review and classification for SiC

We show how spectrally-resolved quantitative CL can be used to classify various defects in SiC
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Non-destructive control of epitaxial layer uniformity in GaN power devices

We will show how spectrally-resolved quantitative CL can address this challenge
References

Scientific references in link with our Hybridized SEM – Spectroscopic Platform

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
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
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
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

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!