Harnessing Persistent Photocurrent in a 2D Semiconductor–Polymer Hybrid Structure: Electron Trapping and Fermi Level Modulation for Optoelectronic Memory

Bang, Seungho; Kang, Wooyoung; Kim, Dohyeong; Suh, Hyeong Chan; Kim, Dong Hyeon; Kwon, Chan; Jo, Jieun; Kim, Ji-hong; Ko, Hayoung; Kim, Ki Kang; Ahn, Jinho; Jeong, Mun Seok

doi:10.1021/acs.nanolett.4c02173

Nano Lett.

2024

DOI: 10.1021/acs.nanolett.4c02173

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Harnessing Persistent Photocurrent in a 2D Semiconductor–Polymer Hybrid Structure: Electron Trapping and Fermi Level Modulation for Optoelectronic Memory

Seungho Bang,

Wooyoung Kang,

Dohyeong Kim

et al.

Abstract: Recently, 2D semiconductor-based optoelectronic memory has been explored to overcome the limitations of conventional von Neumann architectures by integrating optical sensing and data storage into one device. Persistent photocurrent (PPC), essential for optoelectronic memory, originates from charge carrier trapping according to the Shockley−Read−Hall (SRH) model in 2D semiconductors. The quasi-Fermi level position influences the activation of charge-trapping sites. However, the correlation between quasi-Fermi l… Show more

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Air-stable, aluminium oxide encapsulated graphene phototransistors

Rojas Castiglione,

Pucher,

Dockx

et al. 2024

Nanotechnology

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Graphene has garnered significant interest in optoelectronics due to its unique properties, including broad wavelength absorption and high mobility. However, its weak stability in ambient conditions requires encapsulation for practical applications. In this study, we investigate graphene CVD-grown field-effect transistors fabricated on Si/SiO2 wafers, encapsulated with aluminum oxide (Al2O3) of different thicknesses. We measure and analyze their optoelectronic response across wavelengths from near-ultraviolet to near-infrared. We find that, while having a negligible role in the photogating process, the Al2O3 layer leads to stable and reproducible transferring curves operating in ambient conditions for over a month, with stable responsivities up to 1.5 A/W at the shortest wavelength. Moreover, the transferring curves are stable at elevated temperatures up to 107 °C. We also show that the sample performance can be tuned by changing the thickness of the Si/SiO2 and Al2O3 layer which brings further perspectives in developing robust sample technologies, especially in the ultraviolet region where the responsivity increases. Aluminum oxide encapsulated graphene-based photodetectors can thus be interesting for applications in air and at elevated temperatures.

show abstract

Air-stable, aluminium oxide encapsulated graphene phototransistors

Rojas Castiglione,

Pucher,

Dockx

et al. 2024

Nanotechnology

View full text Add to dashboard Cite

show abstract

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Harnessing Persistent Photocurrent in a 2D Semiconductor–Polymer Hybrid Structure: Electron Trapping and Fermi Level Modulation for Optoelectronic Memory

Cited by 1 publication

References 41 publications

Air-stable, aluminium oxide encapsulated graphene phototransistors

Air-stable, aluminium oxide encapsulated graphene phototransistors

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