Aging and Characterization of High-Bandgap Perovskite Solar Cells

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Aging and Characterization of High-Bandgap Perovskite Solar Cells

In this research blog, we explore the aging and characterization of high-bandgap solar cells, focusing on perovskite compositions. Our findings highlight the impact of temperature on the degradation of solar cells and the importance of comprehensive characterizations beyond simple stability tests. Using advanced techniques, we identified that increased mobile ion density significantly affects cell performance over time. Discover how our Litos platform aids in these crucial analyses.

Read the full article https://www.fluxim.com/aging-and-characterization-of-high-bandgap-solar-cells

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Understanding Mobility in Solar Cells: A Guide to CELIV Measurements

/ Fluxim AG/
Understanding Mobility in Solar Cells: A Guide to CELIV Measurements

Dive into the world of mobility in solar cells, and explore how CELIV measurements help determine charge carrier mobility in thin-film solar cells like perovskite and organic solar cells. Learn about various CELIV techniques and their applications in this comprehensive research blog.

Check the full tutorial here: https://www.fluxim.com/understanding-mobility-celiv-measurements

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Perovskite Photovoltaic Minimodules: Performance Predictions

/ Fluxim AG/
Perovskite Photovoltaic Minimodules: Performance Predictions

The monolithic module design is a suitable solution to upscale the lateral dimensions of perovskite solar cells. The device's active area is divided into smaller cells with an interconnection gap. The narrower the subcell, the lower the resistance of each subcell with consequent improvement of the FF. However, the interconnecting gap between each subcell is an inactive area, that reduces the total efficiency of the module. The interconnection is composed of lines P1, P2, and P3, which respectively separate the TCO, the photoactive layer, and the top contact between consecutive subcells.

We used the simulation software Laoss to optimize a perovskite photovoltaic minimodule. This procedure can replace the standard experimental trial-and-error approach that is commonly used to upscale perovskite solar cells.

Check the full tutorial here: https://www.fluxim.com/perovskite-solar-cell-upscaling-prevision

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Current losses in perovskite solar cells analyzed with a drift-diffusion simulation

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Current losses in perovskite solar cells analyzed with a drift-diffusion simulation

The presence of ions limits the charge extraction in perovskite solar cells, causing current losses. We used drift-diffusion simulation to validate this hypothesis and propose solutions to limit their influence – hence optimizing the power conversion efficiency (PCE).

Read the full post here: https://www.fluxim.com/mobile-ions-perovskite-solar-cells

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What is the effect of the recombination rates on the efficiency of TADF OLEDs?

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What is the effect of the recombination rates on the efficiency of TADF OLEDs?

OLEDs made by thermally-activated delayed fluorescence (TADF) materials as emitters promise an IQE of 100%. Here, we want to present an analysis of the influence of non-radiative recombination rates (knrs and knrt) on the device efficiency as well as how to determine them from experiments. As we will see, the knr rate influences PLQY, and consequently ELQY, hence the negative impact on EQE.
First, to determine the non-radiative decay rates, we need to extract the rates kf, krisc, and kisc by fitting transient photoluminescence (trPL) measurements of TADF films.

Check the full discussion here: https://www.fluxim.com/determining-non-radiative-decay-rates-in-tadf-compounds

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Stability of Perovskite Solar Cells. ISOS Protocols

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Stability of Perovskite Solar Cells. ISOS Protocols

How do we perform aging experiments that are tailored to emerging PVs? This blog post summarizes the crucial guidelines that have been proposed by the community working on Perovskite Solar Cells (PSCs) to properly assess the stability of PSCs. These guidelines have been added to the existing indications provided by the ISOS protocols developed for Organic Solar Cells.

Read the full post here: https://www.fluxim.com/isos-protocols-stability-perovskite-solar-cells

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Grid geometry optimization to maximize the efficiency of large-area organic devices

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Grid geometry optimization to maximize the efficiency of large-area organic devices

It is challenging to increase the device area of optoelectronic devices based on perovskite and organic materials without losing performance. One of the key issues is the high sheet resistance (Rs) of the transparent conductive oxide (TCO). Combining the TCO with a metallic grid reduces the ohmic losses, but what is the grid geometry that maximizes performance?

In this tutorial, we will show you, how to use the simulation software Laoss and its optimization feature to quickly find the grid geometrical features for maximum power output.

Check the full tutorial here: https://www.fluxim.com/mpp-large-area-organic-solar-cells

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A Robust Routine to Analyse 1-D Transient Photoluminescence of Metal Halide Perovskites

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A Robust Routine to Analyse 1-D Transient Photoluminescence of Metal Halide Perovskites

Transient photoluminescence (trPL) characterization experiments allow to analysis charge carrier dynamics and identify the recombination channels of the device structure under investigation.

Useful information that can be extracted includes the quantification of radiative and non-radiative lifetimes, charge carrier extraction from differential lifetime computation, and the influence of the interfaces on the recombination mechanism. Fitting the experimental results with simulations further supports the analysis of the obtained data. However, qualitatively comparable fittings can be obtained with different sets of simulation parameters.

Using the fully-coupled, 1-dimensional optoelectronic simulation software Setfos, the trPL signal of a simple glass/perovskite structure was simulated and a routine is suggested to ascertain the reliability of the results. This routine is based on experimentally measured material properties and the analysis of the band diagram evolution during the photoluminescence transient. The validity of the simulated trPL is also recursively verified by fitting the decay with a bi-exponential function to extract the lifetimes of the recombination mechanisms.

Check the full tutorial here: https://www.fluxim.com/transient-photoluminescence-perovskite-pvs

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Reducing non-radiative recombination in Thin-Film Solar Cells

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Reducing non-radiative recombination in Thin-Film Solar Cells

The open-circuit voltage (Voc) is the electrical potential difference between the two terminals of a solar cell, when there is no external load applied, hence no electric current flows. Correspondingly, this means that, when a voltage equivalent to the Voc is applied to the terminals of the solar cell, the recombination current (Jrec, which typically follows a non-ideal diode equation) and the photocurrent (Jph, the current generated by illuminating the solar cell) are equal, hence the net current is zero (Jrec=Jph at V= Voc).

Solar cells often present also non-radiative recombination mechanisms, in addition to the radiative one, as a result of poor material quality and non-idealities. To increase the Voc and thus potentially the power conversion efficiency, it is necessary to minimize the ΔVoc,nrad. It is, therefore, necessary to quantify the total loss and determine its origin.

Electroluminescence (EL) and photoluminescence quantum yield (PLQY) allow to directly extract the ΔVoc,nrad for thin-film solar cells such as perovskite solar cells, kesterite, perovskite, organic, or quantum dot. solar cells.

After quantifying the losses, the combination of capacitance-voltage (CV), temperature-dependent voltage characteristics (JV-T), and capacitance-frequency (Cf-T) measurements are essential to identify the recombination mechanisms.

Check the full tutorial here: https://www.fluxim.com/voc-losses-perovkiste-solar-cells

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