Setfos 5.5 - Here's what's new

/ Fluxim AG/

Setfos is celebrating 20 years since it was first developed, and we’re happy to still be at the cutting edge of simulation. We are also celebrating our latest release, version 5.5, which was released on July 2nd, 2024.

Setfos 5.5 - What’s New

We have assembled a slide deck to unveil all the new features. But for those who prefer a quick glance, we have created a convenient bullet list below detailing our latest implementations.

Jump Straight to the Slide Deck

What’s new?

General

  • Hotfix update wizard

  • Support for installation without admin permissions (Windows)

User-Interface

  • Interactive curve selection in plots

  • Plot options to invert and normalize curves

  • Export of sweep plots as video or series of images

Optics

  • Quenching speedup

  • Effective medium approximation for > 2 materials

  • Output of refractive index profiles

  • Output of Mie scattering cross section

  • Output of the Purcell factor in Mode-Analysis simulations

  • Support for individual files for n and k dispersion

  • User-defined column assignment for nk-files

Drift-Diffusion

  • New trapping model: distributed traps with full dynamics, amphoteric trap states

  • Field and temperature dependent default capture rate for traps

  • Large signal analysis, Fourier postprocessing

  • Improved MPP approximation

  • Current or voltage source in steady-state precalc for Impedance

  • Output of individual contributions to Impedance figures

  • Layer specific transport type (electron-/hole-only layers)

Optimization

  • Normalized optimization targets

  • Periodic optimization targets

  • Individual lin/log weighting of residuum per target group

Tutorial Examples

  • I-V Curve Characteristics of an Amorphous-Silicon-Based Solar Cell, sec. 3.4.3, p. 142

  • Large signal analysis with traps, sec. 7.2.9.1, p. 315

  • Capacitance-voltage with large amplitude, sec. 7.2.9.2, p. 317

  • Modulated Electroluminescence Spectroscopy, sec. 8.6, p. 368

For a detailed overview, please refer to the new tutorial sections in the user guide.

Latest Research Enabled by Setfos

It would be remiss of us not to highlight the enabling power Setfos gives researchers, and what better way to do this than to show it in action:

Effects of Photon Recycling and Luminescent Coupling in All-Perovskite Tandem Solar Cells Assessed by Full Opto-electronic Simulation

Aeberhard, U., Zeder, S.J. and Ruhstaller, B., Sol. RRL 2400264, (2024). https://doi.org/10.1002/solr.202400264

Our team at FLUXiM investigated the performance enhancements in all-perovskite tandem solar cells resulting from photon recycling (PR) and luminescent coupling (LC).

The study employs a comprehensive computational approach, combining both optical and full opto-electronic simulations using Setfos. Optical processes are modeled using a Green function formalism to account for wave optical effects. At the same time, the full opto-electronic simulations integrate a drift-diffusion model to reflect realistic charge transport, including losses due to mobile ions and non-radiative recombination.

Key findings indicate that PR substantially impacts device performance more than LC, particularly when the tandem cells are close to current matching. LC becomes more relevant in bottom-limited configurations, and its effect is amplified by the voltage increase in the top cell due to PR. The research also identifies significant parasitic absorption in charge transport and electrode layers, which detracts from the benefits of PR and LC. Despite these losses, the overall performance improvement remains finite, suggesting that further optimization of these devices is possible.

This detailed analysis, which incorporates electrical loss channels, provides insights that enable the full opto-electronic optimization of all-perovskite tandem solar cells, enhancing their efficiency and practical applicability in the field of photovoltaics.

Ultrabright and stable top-emitting quantum-dot light-emitting diodes with negligible angular color shift

JLi, M., Li, R., Wu, L. et al., Nat Commun 15, 5161 (2024). https://doi.org/10.1038/s41467-024-49574-6

Researchers from Soochow University present the development of ultrabright, stable top-emitting quantum-dot light-emitting diodes (QLEDs) with minimal angular color shift. By optimizing the reflection penetration depths and refractive indices of the nanocrystal films, the researchers achieved devices with over 1.6 million nits luminance, 204.2 cd/A current efficiency, and a T95 operational lifetime of 15,600 hours at 1000 nits. Notable performance includes an external quantum efficiency of 29.2% without light extraction methods and a minimal color shift of Δu’v’ = 0.0052 from 0° to 60°.

How Setfos Enabled the Research:

Setfos was used for optical simulations to refine the device structure and increase its performance.

Efficient and stable hybrid perovskite-organic light-emitting diodes with external quantum efficiency exceeding 40%

Kong, L., Luo, Y., Wu, Q. et al. Light Sci Appl 13, 138 (2024). https://doi.org/10.1038/s41377-024-01500-7


Researchers from Shanghai University developed a stable, efficient, and high-color purity hybrid LED by combining perovskite LED and commercial organic LED technologies in a tandem structure. They selected LEDs with close photoluminescence peaks to maximize photon emission and minimize photon reabsorption. An efficient interconnecting layer with p-type interface doping was designed to provide good optoelectric coupling and reduce Joule heating. This resulted in a green-emitting hybrid LED with a narrow linewidth of around 30 nm, a peak luminance of over 176,000 cd/m², a maximum external quantum efficiency of over 40%, and an operational half-lifetime of over 42,000 hours. This hybrid LED demonstrates significant improvements in color purity, device performance, and stability.

SETFOS was used to simulate and quantitatively investigate the charge density, electric field, and recombination rate of the proposed devices, utilizing a drift-diffusion model.

20 Years of Research with Setfos

Setfos has significantly advanced LEDs, photovoltaics, photodetectors, and battery technology over the past 20 years. We are immensely proud that our software has enabled over 600 research papers and have driven numerous technological innovations.

Discover more research powered by Setfos

Not Yet A Setfos User?

Request a free 1-month evaluation license here.

 

Get Hands on with Setfos and all our R&D Tools at SimOEP’24

SimOEP'24 is fast approaching, and there are still some places available.

The conference will take place from September 2- 4, 2024, at the ZHAW in Winterthur, Switzerland. The conference will bring together experts in organic electronics and photovoltaics, featuring workshops, presentations, and prototype demonstrations. If you wish to participate and haven't registered yet, be sure to secure your spot soon. For more details, visit the event page.

Setfos 5.5 Slide Deck

 
 

Setfos 5.5 is Ready to be Downloaded Now. (Existing Users)

Are you still using an older version of Setfos?

We recommend upgrading to the latest version so you can benefit from the latest features and enhanced simulation capabilities. To update to version 5.5, start Setfos and click on Help > Check for new version.

If you want to upgrade but have some concerns before doing (data loss, extra cost etc.) let us know and we will help you.

 
 

Experience the predictive power of Setfos