2022
DOI: 10.1038/s41586-022-04455-0
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Perovskite–organic tandem solar cells with indium oxide interconnect

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Cited by 272 publications
(252 citation statements)
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“…29 Very recently, a highly efficient interconnect based on an ultrathin ALD-grown InO x layer with a thickness of only about 1.5 nm was developed for perovskite-organic tandem cells. 54 As such, the low-temperature ALD technique was used to shed light on the improved deposition of TCO-based RLs for future use in all-PTSCs.…”
Section: State-of-the-art Icls In All-ptscsmentioning
confidence: 99%
“…29 Very recently, a highly efficient interconnect based on an ultrathin ALD-grown InO x layer with a thickness of only about 1.5 nm was developed for perovskite-organic tandem cells. 54 As such, the low-temperature ALD technique was used to shed light on the improved deposition of TCO-based RLs for future use in all-PTSCs.…”
Section: State-of-the-art Icls In All-ptscsmentioning
confidence: 99%
“…[146] Practically, the restriction of the number of junctions to twojunction SC devices could enable benefits in terms of minimized technological complexity, high-efficiency, and low-cost potentials. [278] As illustrated in Figure 5g, a wide range of material combinations have been developed in two junctions tandem PV technologies such as III-Vs, [146] III-V/Si [279][280][281] (PCE best = 35,9%), [280] perovskite/Si [282][283][284] (PCE best = 29.8%), [13] chalcogenide/Si, [278] perovskite/perovskite [285][286][287] (PCE best = 26,4%), [288] perovskite/ CIGS [289][290][291] (PCE best = 25%), [290] perovskite/organic [292,293] (PCE best = 24%), [294] organic/organic [295,296] (PCE best = 20.2%), [297] a-Si/organic (PCE best = 15.1%), [298] and many others. [51] Several research works addressed a generalized guide for the theoretical maximum PCE of two-junction tandem configuration as a function of top and bottom sub-cell bandgaps with both 2-terminal and 4-terminal architectures.…”
Section: Bandgap Tuning In Multijunction Sc Technologies With Tandem ...mentioning
confidence: 99%
“…The corresponding system combined a wide‐gap (1.85 eV) perovskite FA 0.8 Cs 0.2 Pb(I 0.5 Br 0.5 ) 3 subcell with narrow‐gap (1.33 eV) PM6:Y6 organic subcell featuring non‐fullerene acceptors. [ 294 ] Impressively, tandem organic technology enabled a breakthrough in the field of OSC by entering the era of 20% efficiency.…”
Section: State Of the Art Of Tunable Solar Cell Technologiesmentioning
confidence: 99%
“…The PCE increased and reached a maximum value at about 25 h. This "burn-in" behavior has been previously noted as a characteristic of p-i-n perovskite solar cells, though the exact cause is not known. [32] Given the improvements in output voltage over the burn-in period and the noted sensitivity of p-i-n monolayer devices to modi cation of the perovskite/C 60 interface, [33,34] this interface may become naturally passivated as the device ages over the initial hours of operation. In sharp contrast, considerable degradation was observed when the perovskite materials were tested in n-i-p devices with spiro-OMeTAD hole transport layers.…”
Section: Operational Stabilitymentioning
confidence: 99%