2023
DOI: 10.1002/solr.202201029
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Charge Carrier Lifetime Determination in Graded Absorber Solar Cells Using Time‐Resolved Photoluminescence Simulations and Measurements

Abstract: Thin‐film photovoltaic device efficiencies are limited by carrier recombination, thus understanding recombination mechanisms is critical for performance improvements. Bulk minority carrier lifetime (τ bulk) is a critical parameter for solar cells but is difficult to determine in P–N junction devices, especially for high doping. As doping ≥1016 cm−3 is required for efficient drift‐charge‐carrier‐collection devices, a method for τ bulk determination in doped P–N junction devices is necessary. This work utilizes … Show more

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Cited by 4 publications
(10 citation statements)
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“…This, in turn, extends the electron/hole recombination lifetime, ultimately enhancing the charge transport efficiency. [ 65–67 ]…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…This, in turn, extends the electron/hole recombination lifetime, ultimately enhancing the charge transport efficiency. [ 65–67 ]…”
Section: Resultsmentioning
confidence: 99%
“…This, in turn, extends the electron/hole recombination lifetime, ultimately enhancing the charge transport efficiency. [65][66][67] To study the effect of additives on the trap density of the solar cell devices thus fabricated, dark current measurements are performed. The dark current measurements of perovskite devices with different additives are shown in Figure 4a.…”
Section: Performance Of Solar Cellsmentioning
confidence: 99%
“…[25,27,28,37] All those information is embedded in a single TRPL decay data, and deciphering it and extracting accurate carrier lifetimes become difficult for CdTe samples with graded absorber and other layers. [25] The multiexponential decay form often observed in measurements of CdTe film stacks highlights the complexity of the TRPL data, and it is common in the CdTe community to assign τ 1 to the interface or surface recombination and τ 2 to bulk recombination. While multiexponential fitting indeed sheds light on the existence of different recombination processes, it is only valid when the redistribution of charge carrier density in the sample is minimal, and charge extraction is negligible.…”
Section: Challenges In Utilizing Time-resolved Photoluminescence For ...mentioning
confidence: 99%
“…It is worth mentioning that, in an ideal case where a TRPL setup is able to detect five or even higher orders of magnitude change in signal at a much lower repetition rate (<100 KHz), TRPL decay can also be influenced by the reinjection of the carriers, from electrodes to absorber, and by the detrapping of the carriers from shallow defects. [25,27,28,37] All those information is embedded in a single TRPL decay data, and deciphering it and extracting accurate carrier lifetimes become difficult for CdTe samples with graded absorber and other layers. [25] The multiexponential decay form often observed in measurements of CdTe film stacks highlights the complexity of the TRPL data, and it is common in the CdTe community to assign τ 1 to the interface or surface recombination and τ 2 to bulk recombination.…”
Section: Challenges In Utilizing Time-resolved Photoluminescence For ...mentioning
confidence: 99%
See 1 more Smart Citation