Soluble fullerene derivatives: The effect of electronic structure on transistor performance and air stability

James M. Ball; Ricardo K.M. Bouwer; Floris B. Kooistra; Jarvist M. Frost; Yabing Qi; Ester Buchaca Domingo; Jeremy Smith; Dago M. de Leeuw; Jan C. Hummelen; Jenny Nelson; Antoine Kahn; Natalie Stingelin; Donal D. C. Bradley; Thomas D. Anthopoulos

doi:10.1063/1.3605531

Soluble fullerene derivatives: The effect of electronic structure on transistor performance and air stability

James M. Ball, Ricardo K.M. Bouwer, Floris B. Kooistra, Jarvist M. Frost, Yabing Qi, Ester Buchaca Domingo, Jeremy Smith, Dago M. de Leeuw, Jan C. Hummelen, Jenny Nelson, Antoine Kahn, Natalie Stingelin, Donal D. C. Bradley, Thomas D. Anthopoulos^*

^*Corresponding author for this work

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

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Abstract

The family of soluble fullerene derivatives comprises a widely studied group of electron transporting molecules for use in organic electronic and optoelectronic devices. For electronic applications, electron transporting (n-channel) materials are required for implementation into organic complementary logic circuit architectures. To date, few soluble candidate materials have been studied that fulfill the stringent requirements of high carrier mobility and air stability. Here we present a study of three soluble fullerenes with varying electron affinity to assess the impact of electronic structure on device performance and air stability. Through theoretical and experimental analysis of the electronic structure, characterization of thin-film structure, and characterization of transistor device properties we find that the air stability of the present series of fullerenes not only depends on the absolute electron affinity of the semiconductor but also on the disorder within the thin-film.

Original language	English
Article number	014506
Pages (from-to)	014506-1-014506-9
Number of pages	9
Journal	Journal of Applied Physics
Volume	110
Issue number	1
DOIs	https://doi.org/10.1063/1.3605531
Publication status	Published - 1-Jul-2011

Keywords

THIN-FILM TRANSISTORS
FIELD-EFFECT TRANSISTORS
HETEROJUNCTION SOLAR-CELLS
ORGANIC TRANSISTORS
POLYMER
SEMICONDUCTORS
MOBILITY
METHANOFULLERENE
EFFICIENCIES
INJECTION

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Ball, J. M., Bouwer, R. K. M., Kooistra, F. B., Frost, J. M., Qi, Y., Buchaca Domingo, E., Smith, J., de Leeuw, D. M., Hummelen, J. C., Nelson, J., Kahn, A., Stingelin, N., Bradley, D. D. C., & Anthopoulos, T. D. (2011). Soluble fullerene derivatives: The effect of electronic structure on transistor performance and air stability. Journal of Applied Physics, 110(1), 014506-1-014506-9. Article 014506. https://doi.org/10.1063/1.3605531

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title = "Soluble fullerene derivatives: The effect of electronic structure on transistor performance and air stability",

abstract = "The family of soluble fullerene derivatives comprises a widely studied group of electron transporting molecules for use in organic electronic and optoelectronic devices. For electronic applications, electron transporting (n-channel) materials are required for implementation into organic complementary logic circuit architectures. To date, few soluble candidate materials have been studied that fulfill the stringent requirements of high carrier mobility and air stability. Here we present a study of three soluble fullerenes with varying electron affinity to assess the impact of electronic structure on device performance and air stability. Through theoretical and experimental analysis of the electronic structure, characterization of thin-film structure, and characterization of transistor device properties we find that the air stability of the present series of fullerenes not only depends on the absolute electron affinity of the semiconductor but also on the disorder within the thin-film. ",

keywords = "THIN-FILM TRANSISTORS, FIELD-EFFECT TRANSISTORS, HETEROJUNCTION SOLAR-CELLS, ORGANIC TRANSISTORS, POLYMER, SEMICONDUCTORS, MOBILITY, METHANOFULLERENE, EFFICIENCIES, INJECTION",

author = "Ball, \{James M.\} and Bouwer, \{Ricardo K.M.\} and Kooistra, \{Floris B.\} and Frost, \{Jarvist M.\} and Yabing Qi and \{Buchaca Domingo\}, Ester and Jeremy Smith and \{de Leeuw\}, \{Dago M.\} and Hummelen, \{Jan C.\} and Jenny Nelson and Antoine Kahn and Natalie Stingelin and Bradley, \{Donal D. C.\} and Anthopoulos, \{Thomas D.\}",

note = "Relation: http://www.rug.nl/zernike/ Rights: University of Groningen, Zernike Institute for Advanced Materials",

year = "2011",

month = jul,

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doi = "10.1063/1.3605531",

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Ball, JM, Bouwer, RKM, Kooistra, FB, Frost, JM, Qi, Y, Buchaca Domingo, E, Smith, J, de Leeuw, DM, Hummelen, JC, Nelson, J, Kahn, A, Stingelin, N, Bradley, DDC & Anthopoulos, TD 2011, 'Soluble fullerene derivatives: The effect of electronic structure on transistor performance and air stability', Journal of Applied Physics, vol. 110, no. 1, 014506, pp. 014506-1-014506-9. https://doi.org/10.1063/1.3605531

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T2 - The effect of electronic structure on transistor performance and air stability

AU - Ball, James M.

AU - Bouwer, Ricardo K.M.

AU - Kooistra, Floris B.

AU - Frost, Jarvist M.

AU - Qi, Yabing

AU - Buchaca Domingo, Ester

AU - Smith, Jeremy

AU - de Leeuw, Dago M.

AU - Hummelen, Jan C.

AU - Nelson, Jenny

AU - Kahn, Antoine

AU - Stingelin, Natalie

AU - Bradley, Donal D. C.

AU - Anthopoulos, Thomas D.

N1 - Relation: http://www.rug.nl/zernike/ Rights: University of Groningen, Zernike Institute for Advanced Materials

PY - 2011/7/1

Y1 - 2011/7/1

N2 - The family of soluble fullerene derivatives comprises a widely studied group of electron transporting molecules for use in organic electronic and optoelectronic devices. For electronic applications, electron transporting (n-channel) materials are required for implementation into organic complementary logic circuit architectures. To date, few soluble candidate materials have been studied that fulfill the stringent requirements of high carrier mobility and air stability. Here we present a study of three soluble fullerenes with varying electron affinity to assess the impact of electronic structure on device performance and air stability. Through theoretical and experimental analysis of the electronic structure, characterization of thin-film structure, and characterization of transistor device properties we find that the air stability of the present series of fullerenes not only depends on the absolute electron affinity of the semiconductor but also on the disorder within the thin-film.

AB - The family of soluble fullerene derivatives comprises a widely studied group of electron transporting molecules for use in organic electronic and optoelectronic devices. For electronic applications, electron transporting (n-channel) materials are required for implementation into organic complementary logic circuit architectures. To date, few soluble candidate materials have been studied that fulfill the stringent requirements of high carrier mobility and air stability. Here we present a study of three soluble fullerenes with varying electron affinity to assess the impact of electronic structure on device performance and air stability. Through theoretical and experimental analysis of the electronic structure, characterization of thin-film structure, and characterization of transistor device properties we find that the air stability of the present series of fullerenes not only depends on the absolute electron affinity of the semiconductor but also on the disorder within the thin-film.

KW - THIN-FILM TRANSISTORS

KW - FIELD-EFFECT TRANSISTORS

KW - HETEROJUNCTION SOLAR-CELLS

KW - ORGANIC TRANSISTORS

KW - POLYMER

KW - SEMICONDUCTORS

KW - MOBILITY

KW - METHANOFULLERENE

KW - EFFICIENCIES

KW - INJECTION

U2 - 10.1063/1.3605531

DO - 10.1063/1.3605531

M3 - Article

SN - 0021-8979

VL - 110

SP - 014506-1-014506-9

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 1

M1 - 014506

ER -

Soluble fullerene derivatives: The effect of electronic structure on transistor performance and air stability

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Keywords

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