A Decade of Lead Halide Perovskites for Direct‐Conversion X‐ray and Gamma Detection: Technology Readiness Level and Challenges DOI
Kostiantyn Sakhatskyi, Aditya Bhardwaj, Gebhard J. Matt

et al.

Advanced Materials, Journal Year: 2025, Volume and Issue: unknown

Published: May 2, 2025

Abstract Over the past decade, lead halide perovskites (LHPs) have become a vibrant thrust in field of direct conversion X‐ray and gamma‐ray radiation detectors, offering promising cost‐effective robust alternatives to traditional semiconductors. This review article chronicles significant strides made since inception this field, emphasizing material, structural, functional advancements. It begins with an overview fundamental properties that render them suitable for high‐energy detection, such as their high atomic number, prominent charge carriers’ mobility lifetime, resistivity. The highlights key developments material synthesis processing techniques enhanced these detectors' stability, efficiency, scalability. Furthermore, discusses evolution device architectures from single‐channel photodiodes complex multi‐pixel arrays imaging applications. conclusion is focused on remaining challenges hamper immediate progression LHP detectors higher technology levels. intended resource academic researchers industry stakeholders, summarizing first decade forecasting trajectory while remembering future trajectory, though challenging, guided by current technological trends.

Language: Английский

A Decade of Lead Halide Perovskites for Direct‐Conversion X‐ray and Gamma Detection: Technology Readiness Level and Challenges DOI
Kostiantyn Sakhatskyi, Aditya Bhardwaj, Gebhard J. Matt

et al.

Advanced Materials, Journal Year: 2025, Volume and Issue: unknown

Published: May 2, 2025

Abstract Over the past decade, lead halide perovskites (LHPs) have become a vibrant thrust in field of direct conversion X‐ray and gamma‐ray radiation detectors, offering promising cost‐effective robust alternatives to traditional semiconductors. This review article chronicles significant strides made since inception this field, emphasizing material, structural, functional advancements. It begins with an overview fundamental properties that render them suitable for high‐energy detection, such as their high atomic number, prominent charge carriers’ mobility lifetime, resistivity. The highlights key developments material synthesis processing techniques enhanced these detectors' stability, efficiency, scalability. Furthermore, discusses evolution device architectures from single‐channel photodiodes complex multi‐pixel arrays imaging applications. conclusion is focused on remaining challenges hamper immediate progression LHP detectors higher technology levels. intended resource academic researchers industry stakeholders, summarizing first decade forecasting trajectory while remembering future trajectory, though challenging, guided by current technological trends.

Language: Английский

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