Aggregation-Dependent Dielectric Permittivity in 2D Molecular Crystals

Yutian Yang; Yingying Wang; Jingsi Qiao; Weiwei Zhao; Yuanfang Yu; Shaopeng Feng; Xuhong An; Jialin Zhang; Wei Ji; Xinran Wang; Junpeng Lu; Zhenhua Ni

doi:10.1002/smtd.202101198

Aggregation-Dependent Dielectric Permittivity in 2D Molecular Crystals

Yutian Yang, Yingying Wang, Jingsi Qiao, Weiwei Zhao, Yuanfang Yu, Shaopeng Feng, Xuhong An, Jialin Zhang, Wei Ji, Xinran Wang, Junpeng Lu^*, Zhenhua Ni^*

^*Corresponding author for this work

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

3 Citations (Scopus)

Abstract

The functionality of 2D molecular crystal-based devices crucially depends on their intrinsic properties, such as molecular energy levels, light absorption efficiency, and dielectric permittivity, which are highly sensitive to molecular aggregation. Here, it is demonstrated that the dielectric permittivity of the 2,7-dioctyl[1]benzothieno[3,2-b][1]benzothiophene (C₈-BTBT) molecular crystals on monolayer WS₂ substrates can be tuned from 4.62 in the wetting layer to 2.25 in the second layer. Its origin lies in the different molecular orientations in the wetting layer (lying-down) and in the subsequently stacked layers (standing-up), which lead to a positive Coulomb coupling (J_Coup) value (H-aggregation) and a negative J_Coup value (J-aggregation), respectively. Polarized optical contrast spectroscopy reveals that the permittivity of C₈-BTBT is anisotropic, and its direction is related to the underlying substrate. The study offers guidelines for future manipulation of the permittivity of 2D molecular crystals, which may promote their applications toward various electronic and optoelectronic devices.

Original language	English
Article number	2101198
Journal	Small Methods
Volume	6
Issue number	4
DOIs	https://doi.org/10.1002/smtd.202101198
Publication status	Published - 20 Apr 2022
Externally published	Yes

Keywords

2D
aggregation
anisotropy
dielectric permittivity
organic molecular crystals

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10.1002/smtd.202101198

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Yang, Y., Wang, Y., Qiao, J., Zhao, W., Yu, Y., Feng, S., An, X., Zhang, J., Ji, W., Wang, X., Lu, J., & Ni, Z. (2022). Aggregation-Dependent Dielectric Permittivity in 2D Molecular Crystals. Small Methods, 6(4), Article 2101198. https://doi.org/10.1002/smtd.202101198

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abstract = "The functionality of 2D molecular crystal-based devices crucially depends on their intrinsic properties, such as molecular energy levels, light absorption efficiency, and dielectric permittivity, which are highly sensitive to molecular aggregation. Here, it is demonstrated that the dielectric permittivity of the 2,7-dioctyl[1]benzothieno[3,2-b][1]benzothiophene (C8-BTBT) molecular crystals on monolayer WS2 substrates can be tuned from 4.62 in the wetting layer to 2.25 in the second layer. Its origin lies in the different molecular orientations in the wetting layer (lying-down) and in the subsequently stacked layers (standing-up), which lead to a positive Coulomb coupling (JCoup) value (H-aggregation) and a negative JCoup value (J-aggregation), respectively. Polarized optical contrast spectroscopy reveals that the permittivity of C8-BTBT is anisotropic, and its direction is related to the underlying substrate. The study offers guidelines for future manipulation of the permittivity of 2D molecular crystals, which may promote their applications toward various electronic and optoelectronic devices.",

keywords = "2D, aggregation, anisotropy, dielectric permittivity, organic molecular crystals",

author = "Yutian Yang and Yingying Wang and Jingsi Qiao and Weiwei Zhao and Yuanfang Yu and Shaopeng Feng and Xuhong An and Jialin Zhang and Wei Ji and Xinran Wang and Junpeng Lu and Zhenhua Ni",

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doi = "10.1002/smtd.202101198",

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AU - Yang, Yutian

AU - Wang, Yingying

AU - Qiao, Jingsi

AU - Zhao, Weiwei

AU - Yu, Yuanfang

AU - Feng, Shaopeng

AU - An, Xuhong

AU - Zhang, Jialin

AU - Ji, Wei

AU - Wang, Xinran

AU - Lu, Junpeng

AU - Ni, Zhenhua

PY - 2022/4/20

Y1 - 2022/4/20

N2 - The functionality of 2D molecular crystal-based devices crucially depends on their intrinsic properties, such as molecular energy levels, light absorption efficiency, and dielectric permittivity, which are highly sensitive to molecular aggregation. Here, it is demonstrated that the dielectric permittivity of the 2,7-dioctyl[1]benzothieno[3,2-b][1]benzothiophene (C8-BTBT) molecular crystals on monolayer WS2 substrates can be tuned from 4.62 in the wetting layer to 2.25 in the second layer. Its origin lies in the different molecular orientations in the wetting layer (lying-down) and in the subsequently stacked layers (standing-up), which lead to a positive Coulomb coupling (JCoup) value (H-aggregation) and a negative JCoup value (J-aggregation), respectively. Polarized optical contrast spectroscopy reveals that the permittivity of C8-BTBT is anisotropic, and its direction is related to the underlying substrate. The study offers guidelines for future manipulation of the permittivity of 2D molecular crystals, which may promote their applications toward various electronic and optoelectronic devices.

AB - The functionality of 2D molecular crystal-based devices crucially depends on their intrinsic properties, such as molecular energy levels, light absorption efficiency, and dielectric permittivity, which are highly sensitive to molecular aggregation. Here, it is demonstrated that the dielectric permittivity of the 2,7-dioctyl[1]benzothieno[3,2-b][1]benzothiophene (C8-BTBT) molecular crystals on monolayer WS2 substrates can be tuned from 4.62 in the wetting layer to 2.25 in the second layer. Its origin lies in the different molecular orientations in the wetting layer (lying-down) and in the subsequently stacked layers (standing-up), which lead to a positive Coulomb coupling (JCoup) value (H-aggregation) and a negative JCoup value (J-aggregation), respectively. Polarized optical contrast spectroscopy reveals that the permittivity of C8-BTBT is anisotropic, and its direction is related to the underlying substrate. The study offers guidelines for future manipulation of the permittivity of 2D molecular crystals, which may promote their applications toward various electronic and optoelectronic devices.

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Aggregation-Dependent Dielectric Permittivity in 2D Molecular Crystals

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