Helical-chiroptical nanowires generated orbital angular momentum for the detection of circularly polarized light

Wang, Zhongxuan; Gao, Mingsheng; Hao, Xiaotao; Qin, Wei

doi:10.1063/1.5141102

Cited by 22 publications

(24 citation statements)

References 43 publications

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“…In contrast, the 1D chain extends to the carrier transporting direction in the device, resulting in the higher photoconductivity than 2D structure. In addition, the high photoconductivity in the helical 1D structure under CPL irradiation probably depends on the direction of the polarized electronic spin generated by selective absorption of CPL with angular momentum ( 17 , 28 ). These effects have been reported in chiral perovskites with strong spin-orbit coupling, which can be explained by spin-dependent optical selection rules and large Rashba splitting ( 29 – 31 ).…”

Section: Resultsmentioning

confidence: 99%

Direct detection of circular polarized light in helical 1D perovskite-based photodiode

2020

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Detection of circularly polarized light (CPL) has a high potential for development of various optical technologies. Conventional photodetectors require optical polarizers on the device to detect polarized light, and this causes substantial losses of sensitivity and resolution in light detection. Here, we report direct CPL detection by a photodiode using a helical one-dimensional (1D) structure of lead halide perovskites composed of naphthylethylamine-based chiral organic cations. The 1D structure with face-sharing (PbI6)4− octahedral chains whose helicity is largely affected by chiral cations shows intense circular dichroism (CD) signals over 3000 mdeg at 395 nm with the highly anisotropy factor (gCD) of 0.04. This high CD enables photocurrent detection with effective discrimination between left-handed and right-handed CPLs. The CPL detector based on this 1D perovskite achieved the highest polarization discrimination ratio of 25.4, which largely surpasses the direct detecting CPL devices (<4) using chiral plasmonic metamaterials and organic materials.

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Section: Resultsmentioning

confidence: 99%

Direct detection of circular polarized light in helical 1D perovskite-based photodiode

2020

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“…Further, an anisotropy factor of photocurrent for the self‐powered photodetection of CPL is acquired to be 0.3, which reaches the unprecedented merit for the chiral hybrid perovskites. The high anisotropy factor is probably attributable to the polarized electronic spin induced by orbital angular momentum [14] . Spin orbit coupling and resulting spin splitting are expected in the compound constituted of heavy elements Bi and I, which may lead to large Rashba splitting in chiral structure lacking of inversion symmetry [15] .…”

Section: Figurementioning

confidence: 99%

“…The high anisotropy factor is probably attributable to the polarized electronic spin induced by orbital angular momentum. [14] Spin orbit coupling and resulting spin splitting are expected in the compound constituted of heavy elements Bi and I, which may lead to large Rashba splitting in chiral structure lacking of inversion symmetry. [15] To our best knowledge, it should be the first lead-free halide double perovskite for self-powered CPL detection and will enlighten the development of new "green" CPL detectors with prominent performance.…”

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confidence: 99%

Chiral Lead‐Free Hybrid Perovskites for Self‐Powered Circularly Polarized Light Detection

Liu

et al. 2021

Angewandte Chemie

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Metal‐halide perovskites are recently emerging as the promising alternative for CPL detection owing to their CPL‐sensitive property induced by chiral organics and efficient charge transport of inorganic frameworks. However, most of these reported chiral perovskites involve high concentrations of toxic Pb which will become the potential bottleneck for their further application. Herein, we successfully developed two lead‐free halide double perovskites, [(R)‐β‐MPA]4AgBiI8 ((R)‐β‐MPA=(R)‐(+)‐β‐methylphenethylammonium, 1‐R), and [(S)‐β‐MPA]4AgBiI8 ((S)‐β‐MPA=(S)‐(−)‐β‐methylphenethylammonium, 1‐S). Circular dichroism measurements reveal that these perovskites exhibit notable chirality induced by organic cations to distinguish different polarization states of CPL photons. Significantly, they present unique chiral polar photovoltaic, and resulting self‐powered CPL detection without an external power source is unprecedentedly achieved. Furthermore, an anisotropy factor up to 0.3 is acquired for the self‐powered CPL detection, reaching the highest value among reported chiral perovskites. This work suggests hybrid double perovskites are promising photoelectronic candidates, and provides a new approach for exploring new “green” circularly polarized light‐sensitive materials with high performance.

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“…Moreover, the detectivity value (D*) of the CPL detector based on chiral polythiophene exceeded 1.6 × 10 10 Jones ranging from 400 to 670 nm ( Figure 10C ), and it reached 1.25 × 10 11 Jones at 553 nm. Most importantly, the experimental results showed that the differential absorption between LCPL and RCPL had a small contribution to the detection of CPL, while chirality-induced OAM played an important role in the CPL detection for achiral PT nanowire–based CPL photodetectors ( Wang et al, 2020 ). This study plays a very important role in understanding the detection mechanism of CPL photodetectors.…”

Section: Circularly Polarized Light Photodetector Mechanismmentioning

confidence: 99%

“… (A) TEM and scheme of the chiral PT nanowire structure, (B) schematic diagram of the setup used for CPL detection, (C) wavelength-dependent detectivity ( D* ) of the chiral PT–based photodetectors, and (D) photocurrent of ITO/ZnO/chiral PT:PCBM/MoO 3 /Ag under the stimuli of left-handed and right-handed CPL illumination ( Wang et al, 2020 ). Reproduced with permission.…”

Section: Circularly Polarized Light Photodetector Mechanismmentioning

confidence: 99%

Circularly Polarized Photodetectors Based on Chiral Materials: A Review

2021

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Circularly polarized light (CPL) plays an important role in many photonic techniques, including tomographic scanning based on circular polarization ellipsometry, optical communication and information of spin, and quantum-based optical calculation and information processing. To fully exploit the functions of CPL in these fields, integrated photoelectric sensors capable of detecting CPL are essential. Photodetectors based on chiral materials can directly detect CPL due to their intrinsic optical activity, without the need to be coupled with polarizers and quarter-wave plates as in conventional photodetectors. This review summarizes the recent research progress in CPL photodetectors based on chiral materials. We first briefly introduce the CPL photodetectors based on different types of chiral materials and their working principles. Finally, current challenges and future opportunities in the development of CPL photodetectors are prospected.

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Helical-chiroptical nanowires generated orbital angular momentum for the detection of circularly polarized light

Cited by 22 publications

References 43 publications

Direct detection of circular polarized light in helical 1D perovskite-based photodiode

Direct detection of circular polarized light in helical 1D perovskite-based photodiode

Chiral Lead‐Free Hybrid Perovskites for Self‐Powered Circularly Polarized Light Detection

Circularly Polarized Photodetectors Based on Chiral Materials: A Review

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