DLTS investigations on CIGS solar cells from an inline co-evaporation system with RbF post-deposition treatment

Helder, Tim; Kanevce, Ana; Bauer, Andreas; Zinßer, Mario; Paetel, Stefan; Friedlmeier, Theresa Magorian; Powalla, Michael

doi:10.1051/epjpv/2022003

Cited by 6 publications

(8 citation statements)

References 18 publications

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“…[ 8 ] Helder et al employed deep‐level transient spectroscopy (DLTS) to observe that RbF PDT reduced the concentration of an E V + 0.4 eV trap by a factor of 3−4 x . [ 21 ] After aging, the J 0 versus T curves converged and there was less separation between the two devices. Defect studies are needed to determine whether increased J 0 after aging is related to an increase in defect concentration, available in Mendeley Data at https://doi.org/10.17632/ghc3p5zxh8.1, reference number 22.…”

Section: Resultsmentioning

confidence: 99%

Stability of Cu(In_xGa_1−x)Se₂ Solar Cells Utilizing RbF Postdeposition Treatment under a Sulfur Atmosphere

Wands

Bothwell

Tsoulka

et al. 2023

Adv Energy and Sustain Res

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Alkali halide postdeposition treatments (PDTs) have become a key tool to maximize efficiency in Cu(InxGa1−x)Se2 (CIGS) photovoltaics. RbF PDTs have emerged as an alternative to the more common Na‐ and K‐based techniques. This study utilizes temperature‐dependent current–voltage (JVT) measurements to study a unique RbF PDT performed in a S atmosphere. The samples are measured before and after 6 months in a desiccator to study device stability. Both samples contain Na and K which diffuse from the soda–lime glass substrate. A reference sample and a RbF + S PDT sample both show the development of a rear contact barrier after aging. The contact barrier is higher for the RbF + S PDT sample, leading to decreased current in forward bias. Series resistance is also higher in the RbF + S PDT device which leads to lower fill factor. However, after aging the reference sample has a larger decrease in open‐circuit voltage (VOC). Ideality factor measurements suggest Shockley–Read–Hall recombination dominates both samples. VOC versus temperature and a temperature‐dependent activation energy model are used to calculate diode activation energies for each sample condition. Both techniques produce similar values that indicate recombination primarily occurs within the bulk absorber.

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Section: Resultsmentioning

confidence: 99%

Stability of Cu(In_xGa_1−x)Se₂ Solar Cells Utilizing RbF Postdeposition Treatment under a Sulfur Atmosphere

Wands

Bothwell

Tsoulka

et al. 2023

Adv Energy and Sustain Res

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“…One further reason for the strong decrease of the

V_{normalOC}

could be the presence of deep defects, causing an increased Shockley–Read–Hall (SRH) recombination and therefore decreased carrier lifetime. The effect of RbF‐PDT on deep defects in CIGS (without silver) has been investigated by deep level transient spectroscopy (DLTS) and other capacitive measurement techniques already in the last years, reporting a passivating effect of Rb which results in an enhanced carrier lifetime 12,21,28 . Therefore, it is reasonable to investigate the effect in ACIGS absorber materials.…”

Section: Resultsmentioning

confidence: 99%

“…For higher source temperatures above 520 C, the Rb and Na concentration increases in that region carrier lifetime. 12,21,28 Therefore, it is reasonable to investigate the effect in ACIGS absorber materials. The results of reverse DLTS (RDLTS) measurements are shown in Figure 7A.…”

Section: Capacitative Measurements On Acigs Solar Cells With Differen...mentioning

confidence: 99%

“…The evaluation of the measured temperature scans have been performed by a maximums analysis of the peaks, where the position is tracked resulting in a data set in the Arrhenius plot for each trap, with the emission time constant τ or the emission rate e T plotted over the inverse temperature 1000=T. The measurement technique is also described elsewhere 28. 4.2.2 | CV measurementsCV measurements have been performed with the cryogenic setup and PhysTech Hera DLTS system in dark, at room temperature, and 200K in order to test the sensitivity of the measurements to temperature changes.…”

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confidence: 99%

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How small changes make a difference: Influence of low silver contents on the effect of RbF‐PDT in CIGS solar cells

Helder

Kanevce

Zinßer

et al. 2022

Progress in Photovoltaics

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Despite the efficiencies above 20% achieved with (Ag,Cu)(In,Ga)Se2 (ACIGS) solar cells, further efficiency improvements are necessary. One possibility is the implementation of a postdeposition treatment (PDT) process. The aim of this study is therefore to investigate the effect of rubidium‐fluoride (RbF)‐PDT on the performance and physical properties of the ACIGS absorber. For this purpose, the RbF source temperature of the PDT process of ACIGS films with Ag/(Ag+Cu) (AAC) ratios of 5% from a multistage co‐evaporation inline process was systematically varied. It was shown that the efficiency of the devices is reduced by the PDT process, unlike observed for Cu(In,Ga)Se2 (CIGS) absorber, and is strongly influenced by the amount of rubidium. The behavior can be attributed to a strong reduction of the doping, which results from a changed doping mechanism. Furthermore, evidence for the formation of an additional layer was found. In addition, deep level transient spectroscopy (DLTS) measurements were performed on the samples showing a strong signal at low temperatures. This minority trap signal is strongly influenced by the amount of Rb and shows a systematically changing energetic position towards the middle of the band gap and an increasing density. Based on pulse variation measurements, the associated defect could be identified as an extended defect, indicating a location of the defect at grain boundaries.

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“…This technique has been widely explored for the characterization of defects in mature PV technologies ( e.g. , Si, 56 GaAs, 57,58 CIGS, 59 and CdTe 60,61 ), and emerging perovskite solar cells. 62–64…”

Section: Defects In Sb2x3 Materials and Their Implication In The Perf...mentioning

confidence: 99%

A comprehensive insight into deep-level defect engineering in antimony chalcogenide solar cells

Barthwal,

Singh,

Chauhan

et al. 2023

Mater. Adv.

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DLTS investigations on CIGS solar cells from an inline co-evaporation system with RbF post-deposition treatment

Cited by 6 publications

References 18 publications

Stability of Cu(In_xGa_1−x)Se₂ Solar Cells Utilizing RbF Postdeposition Treatment under a Sulfur Atmosphere

Stability of Cu(In_xGa_1−x)Se₂ Solar Cells Utilizing RbF Postdeposition Treatment under a Sulfur Atmosphere

How small changes make a difference: Influence of low silver contents on the effect of RbF‐PDT in CIGS solar cells

A comprehensive insight into deep-level defect engineering in antimony chalcogenide solar cells

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DLTS investigations on CIGS solar cells from an inline co-evaporation system with RbF post-deposition treatment

Cited by 6 publications

References 18 publications

Stability of Cu(InxGa1−x)Se2 Solar Cells Utilizing RbF Postdeposition Treatment under a Sulfur Atmosphere

Stability of Cu(InxGa1−x)Se2 Solar Cells Utilizing RbF Postdeposition Treatment under a Sulfur Atmosphere

How small changes make a difference: Influence of low silver contents on the effect of RbF‐PDT in CIGS solar cells

A comprehensive insight into deep-level defect engineering in antimony chalcogenide solar cells

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Product

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Stability of Cu(In_xGa_1−x)Se₂ Solar Cells Utilizing RbF Postdeposition Treatment under a Sulfur Atmosphere

Stability of Cu(In_xGa_1−x)Se₂ Solar Cells Utilizing RbF Postdeposition Treatment under a Sulfur Atmosphere