Observation of excitonic series in monolayer and few-layer black phosphorus

Ruijuan Tian; Ruixiang Fei; Siqi Hu; Tianshu Li; Binjie Zheng; Yi Shi; Jianlin Zhao; Lijun Zhang; Xuetao Gan; Xiaomu Wang

doi:10.1103/PhysRevB.101.235407

Observation of excitonic series in monolayer and few-layer black phosphorus

Ruijuan Tian, Ruixiang Fei, Siqi Hu, Tianshu Li, Binjie Zheng, Yi Shi, Jianlin Zhao, Lijun Zhang, Xuetao Gan, Xiaomu Wang

Research output: Contribution to journal › Article › peer-review

30 Citations (Scopus)

Abstract

We report the full sequence of excitonic states in monolayer and few-layer black phosphorus (BP). High-quality BP samples are acquired by treating the silicon oxide substrate with a self-assembled monolayer hydrophobic molecule, which facilitates the access to their ground and higher-lying states of intrinsic excitons through the reflection and photoluminescence excitation spectra. Combined with first-principles and model calculations, we further determine that the exciton binding energy shrinks by ∼6-fold from 940 meV in monolayer to 160 meV in bilayer BP, yet it only decreases slightly to 108 meV in trilayer. This could be attributed to the strong interlayer coupling and lattice shrinking in multilayer BP samples. Our results shed light on the unique excitonic optical properties of two-dimensional BP.

Original language	English
Article number	235407
Journal	Physical Review B
Volume	101
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevB.101.235407
Publication status	Published - 15 Jun 2020
Externally published	Yes

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title = "Observation of excitonic series in monolayer and few-layer black phosphorus",

abstract = "We report the full sequence of excitonic states in monolayer and few-layer black phosphorus (BP). High-quality BP samples are acquired by treating the silicon oxide substrate with a self-assembled monolayer hydrophobic molecule, which facilitates the access to their ground and higher-lying states of intrinsic excitons through the reflection and photoluminescence excitation spectra. Combined with first-principles and model calculations, we further determine that the exciton binding energy shrinks by ∼6-fold from 940 meV in monolayer to 160 meV in bilayer BP, yet it only decreases slightly to 108 meV in trilayer. This could be attributed to the strong interlayer coupling and lattice shrinking in multilayer BP samples. Our results shed light on the unique excitonic optical properties of two-dimensional BP.",

author = "Ruijuan Tian and Ruixiang Fei and Siqi Hu and Tianshu Li and Binjie Zheng and Yi Shi and Jianlin Zhao and Lijun Zhang and Xuetao Gan and Xiaomu Wang",

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T1 - Observation of excitonic series in monolayer and few-layer black phosphorus

AU - Tian, Ruijuan

AU - Fei, Ruixiang

AU - Hu, Siqi

AU - Li, Tianshu

AU - Zheng, Binjie

AU - Shi, Yi

AU - Zhao, Jianlin

AU - Zhang, Lijun

AU - Gan, Xuetao

AU - Wang, Xiaomu

PY - 2020/6/15

Y1 - 2020/6/15

N2 - We report the full sequence of excitonic states in monolayer and few-layer black phosphorus (BP). High-quality BP samples are acquired by treating the silicon oxide substrate with a self-assembled monolayer hydrophobic molecule, which facilitates the access to their ground and higher-lying states of intrinsic excitons through the reflection and photoluminescence excitation spectra. Combined with first-principles and model calculations, we further determine that the exciton binding energy shrinks by ∼6-fold from 940 meV in monolayer to 160 meV in bilayer BP, yet it only decreases slightly to 108 meV in trilayer. This could be attributed to the strong interlayer coupling and lattice shrinking in multilayer BP samples. Our results shed light on the unique excitonic optical properties of two-dimensional BP.

AB - We report the full sequence of excitonic states in monolayer and few-layer black phosphorus (BP). High-quality BP samples are acquired by treating the silicon oxide substrate with a self-assembled monolayer hydrophobic molecule, which facilitates the access to their ground and higher-lying states of intrinsic excitons through the reflection and photoluminescence excitation spectra. Combined with first-principles and model calculations, we further determine that the exciton binding energy shrinks by ∼6-fold from 940 meV in monolayer to 160 meV in bilayer BP, yet it only decreases slightly to 108 meV in trilayer. This could be attributed to the strong interlayer coupling and lattice shrinking in multilayer BP samples. Our results shed light on the unique excitonic optical properties of two-dimensional BP.

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Observation of excitonic series in monolayer and few-layer black phosphorus

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