材料科学
量子点
光电二极管
墨水池
光电探测器
光电子学
胶体
纳米技术
红外线的
比探测率
硫化铅
溶剂
近红外光谱
红外探测器
自组装
薄膜
喷墨打印
量子效率
纳米
作者
H. Wang,Jiaxiong Li,Jacopo Pinna,M. Kot,Noah Y. N. van der Ploeg,Maria Antonietta Loi
标识
DOI:10.1002/adma.202518118
摘要
ABSTRACT PbS colloidal quantum dots (CQDs) hold strong promise for short‐wave infrared (SWIR) optoelectronics. However, current photodetectors rely on p ‐type CQD layers fabricated via a laborious, defect‐prone layer‐by‐layer process. While robust n ‐type CQD inks have been realized, p ‐type inks remain challenging due to the absence of suitable ligands and solvents. An ideal solvent must ensure colloidal stability and be orthogonal to underlying layers. Here, we report a thiolate‐capped p ‐type PbS CQD ink using mercapto‐2‐propanol as the ligand and hexafluoro‐2‐propanol as the solvent. Stabilization arises from ligand–solvent hydrogen bonding, providing a shelf‐life exceeding six days. The solvent does not compromise pre‐deposited layers, enabling fully blade‐coated photodiodes in both n–p and p–n architectures. Devices fabricated with this ink exhibit a twofold increase in specific detectivity (2.55 × 10 12 Jones) and a 70% enhancement in bandwidth (155 kHz) compared to layer‐by‐layer controls, attributed to improved film morphology and charge transport.
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