Aufsatz in einer Fachzeitschrift
High-performance direct conversion X-ray detectors based on sintered hybrid lead triiodide perovskite wafers
Details zur Publikation
Autor(inn)en: | Shrestha, S.; Fischer, R.; Matt, G.; Feldner, P.; Michel, T.; Osvet, A.; Levchuck, I.; Merle, B.; Golkar, S.; Chen, H.; Tedde, S.; Schmidt, O.; Hock, R.; Rühring, M.; Göken, M.; Heiß, W.; Anton, G.; Brabec, C. |
Verlag: | NATURE PUBLISHING GROUP |
Publikationsjahr: | 2017 |
Zeitschrift: | Nature Photonics |
Seitenbereich: | 436-440 |
Jahrgang/Band : | 11 |
Heftnummer: | 7 |
Erste Seite: | 436 |
Letzte Seite: | + |
Seitenumfang: | 6 |
ISSN: | 1749-4885 |
eISSN: | 1749-4893 |
DOI-Link der Erstveröffentlichung: |
Zusammenfassung, Abstract
Lead halide perovskite semiconductors are in general known to have an inherently high X-ray absorption cross-section and a significantly higher carrier mobility than any other low-temperature solution-processed semiconductor. So far, the processing of several-hundred-micrometres-thick high-quality crystalline perovskite films over a large area has been unresolved for efficient X-ray detection. In this Article, we present a mechanical sintering process to fabricate polycrystalline methyl ammonium lead triiodide perovskite (MAPbI(3)) wafers with millimetre thickness and well-defined crystallinity. Benchmarking of the MAPbI(3) wafers against state-of-the-art CdTe detectors reveals competitive conversion efficiencies of 2,527 mu C Gy(air)(-1) cm(-2) under 70 kV(p) X-ray exposure. The high ambipolar mobility-lifetime product of 2 x 10(-4) cm(2) V-1 is suggested to be responsible for this exceptionally high sensitivity. Our findings inform a new generation of highly efficient and low-cost X-ray detectors based on perovskite wafers.
Lead halide perovskite semiconductors are in general known to have an inherently high X-ray absorption cross-section and a significantly higher carrier mobility than any other low-temperature solution-processed semiconductor. So far, the processing of several-hundred-micrometres-thick high-quality crystalline perovskite films over a large area has been unresolved for efficient X-ray detection. In this Article, we present a mechanical sintering process to fabricate polycrystalline methyl ammonium lead triiodide perovskite (MAPbI(3)) wafers with millimetre thickness and well-defined crystallinity. Benchmarking of the MAPbI(3) wafers against state-of-the-art CdTe detectors reveals competitive conversion efficiencies of 2,527 mu C Gy(air)(-1) cm(-2) under 70 kV(p) X-ray exposure. The high ambipolar mobility-lifetime product of 2 x 10(-4) cm(2) V-1 is suggested to be responsible for this exceptionally high sensitivity. Our findings inform a new generation of highly efficient and low-cost X-ray detectors based on perovskite wafers.
