Heterojunctions of solid C60 and crystalline silicon: Rectifying properties and energy-band models

K. M. Chen; Y. Q. Jia; S. X. Jin; K. Wu; Wenbing Zhao; C. Y. Li; Z. N. Gu; X. H. Zhou

doi:10.1088/0953-8984/7/14/004

Heterojunctions of solid C60 and crystalline silicon: Rectifying properties and energy-band models

K. M. Chen
, Y. Q. Jia
, S. X. Jin
, K. Wu
, Wenbing Zhao
, C. Y. Li
, Z. N. Gu
, X. H. Zhou

Electrical and Computer Engineering

Peking University

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

25 Scopus citations

Abstract

Heterojunctions of undoped solid C60 and n- or p-type-doped crystalline Si have been obtained. Current-voltage measurements show that both C60/n-Si and C60/p-Si contacts are rectifying but their directions of rectification are opposite. Thermal activation measurements at a fixed forward bias show an exponential dependence of current on the reciprocal of temperature, from which we determine the effective barrier height as 0.30 eV for C60/n-Si and 0.48 eV for C60/p-Si. Using energy-band models for heterojunctions we assign values to the positions of the conduction and valence bands of the solid C60 relative to those of crystalline Si and derive the electron affinity and band gap of solid C60 film as 3.92 eV and <1.72 eV, respectively.

Original language	English
Article number	004
Journal	Journal of Physics: Condensed Matter
Volume	7
Issue number	14
DOIs	https://doi.org/10.1088/0953-8984/7/14/004
State	Published - Dec 1 1995

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10.1088/0953-8984/7/14/004

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title = "Heterojunctions of solid C60 and crystalline silicon: Rectifying properties and energy-band models",

abstract = "Heterojunctions of undoped solid C60 and n- or p-type-doped crystalline Si have been obtained. Current-voltage measurements show that both C60/n-Si and C60/p-Si contacts are rectifying but their directions of rectification are opposite. Thermal activation measurements at a fixed forward bias show an exponential dependence of current on the reciprocal of temperature, from which we determine the effective barrier height as 0.30 eV for C60/n-Si and 0.48 eV for C60/p-Si. Using energy-band models for heterojunctions we assign values to the positions of the conduction and valence bands of the solid C60 relative to those of crystalline Si and derive the electron affinity and band gap of solid C60 film as 3.92 eV and <1.72 eV, respectively.",

author = "Chen, \{K. M.\} and Jia, \{Y. Q.\} and Jin, \{S. X.\} and K. Wu and Wenbing Zhao and Li, \{C. Y.\} and Gu, \{Z. N.\} and Zhou, \{X. H.\}",

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T1 - Heterojunctions of solid C60 and crystalline silicon: Rectifying properties and energy-band models

AU - Chen, K. M.

AU - Jia, Y. Q.

AU - Jin, S. X.

AU - Wu, K.

AU - Zhao, Wenbing

AU - Li, C. Y.

AU - Gu, Z. N.

AU - Zhou, X. H.

PY - 1995/12/1

Y1 - 1995/12/1

N2 - Heterojunctions of undoped solid C60 and n- or p-type-doped crystalline Si have been obtained. Current-voltage measurements show that both C60/n-Si and C60/p-Si contacts are rectifying but their directions of rectification are opposite. Thermal activation measurements at a fixed forward bias show an exponential dependence of current on the reciprocal of temperature, from which we determine the effective barrier height as 0.30 eV for C60/n-Si and 0.48 eV for C60/p-Si. Using energy-band models for heterojunctions we assign values to the positions of the conduction and valence bands of the solid C60 relative to those of crystalline Si and derive the electron affinity and band gap of solid C60 film as 3.92 eV and <1.72 eV, respectively.

AB - Heterojunctions of undoped solid C60 and n- or p-type-doped crystalline Si have been obtained. Current-voltage measurements show that both C60/n-Si and C60/p-Si contacts are rectifying but their directions of rectification are opposite. Thermal activation measurements at a fixed forward bias show an exponential dependence of current on the reciprocal of temperature, from which we determine the effective barrier height as 0.30 eV for C60/n-Si and 0.48 eV for C60/p-Si. Using energy-band models for heterojunctions we assign values to the positions of the conduction and valence bands of the solid C60 relative to those of crystalline Si and derive the electron affinity and band gap of solid C60 film as 3.92 eV and <1.72 eV, respectively.

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Heterojunctions of solid C60 and crystalline silicon: Rectifying properties and energy-band models

Abstract

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