Dual facet passivation of silver halometallate for eco-friendly silver bismuth sulfide near IR photodetector

钝化 材料科学 硫系化合物 离子键合 光电探测器 光电子学 纳米技术 化学 离子 有机化学 图层(电子)
作者
Ashish Sharma,Hanjae Kim,Gunhee Kim,Jinhyeon Kang,Cheong Beom Lee,Sung Yong Bae,Hochan Song,Kyeounghak Kim,Jong Hyun Kim,In Hwan Jung,Dong won Kang -,Jihoon Lee,Hyosung Choi
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:473: 145246-145246 被引量:16
标识
DOI:10.1016/j.cej.2023.145246
摘要

Ternary chalcogenide silver bismuth sulfide nanocrystals (AgBiS2 NCs) have taken great strides in the past few years to emerge as one of the better eco-friendly alternatives to compete with the prevalent toxic semiconductor materials such as lead sulfide quantum dots (PbS QDs) in the near-infrared (NIR) region. Nevertheless, their implementation in photodetectors has been scarce due to high dark current and complicated solid-state ligand exchange fabrication steps involved, resulting in a lower overall detectivity. The performance is further deemed to be stunted due to the difficulty associated with the passivation of the charge-neutral (1 0 0) facet of larger AgBiS2 NCs efficiently. In this work, we aimed to develop a mixed 'halometallate' ligand approach, wherein we introduce silver bromide (AgBr) as an ancillary ligand to silver iodide (AgI), passivating both (1 0 0) and (1 1 1) facets of cubic AgBiS2 solids in a facile solution-phase ligand exchange step to obtain highly dispersible colloidal ink. Decreased bond length, bond angle (Br-Ag-Br), and ionic size of [AgBr2-] anion induces less compressive strain compared to [AgI2–], culminating in higher molecular stability on the AgBiS2 surface. This dual passivation reduces the dark current to 6.01 × 10-7 A cm−2 and a high specific detectivity of 1.8 × 1012 Jones at 800 nm is achieved, comparable to ubiquitous PbS QD devices. We also demonstrate diminished in-gap carrier density population, enhanced light detection, and ultrafast microsecond response at higher wavelengths operating under high bias (-1V) photoconductive mode. This study illustrates the role of optimum surface coverage in eliminating the deleterious non-radiative recombination defect centers by introducing additional ligands in solution-processed AgBiS2 NC and the viability of the mixed ligand approach for stable eco-friendly NIR photodetectors.
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