Chromophore fluorination enhances crystallization and stability of soluble anthradithiophene semiconductors

Sankar Subramanian; Kyu Park Sung; Sean R. Parkin; Vitaly Podzorov; Thomas N. Jackson; John E. Anthony

doi:10.1021/ja073235k

Chromophore fluorination enhances crystallization and stability of soluble anthradithiophene semiconductors

Sankar Subramanian, Kyu Park Sung, Sean R. Parkin, Vitaly Podzorov, Thomas N. Jackson, John E. Anthony

School of Arts and Sciences, New High Energy Theory Center

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

328 Scopus citations

Abstract

We report dramatic improvements in the stability and crystallinity arising from partial fluorination of soluble anthradithiophene derivatives. These fluorinated materials still behave as p-type semiconductors but with dramatic increases in thermal and photostability compared to the non-fluorinated derivatives. The triethylsilyl-substituted material forms highly crystalline films even from spin-cast solutions, leading to devices with maximum hole mobility greater than1.0 cm²/V s. In contrast, the triisopropylsilyl derivative forms large, high-quality crystals that could serve as the substrate for transistor fabrication. For this compound, mobility as high as 0.1 cm²/V s was measured on the free-standing crystal.

Original language	English (US)
Pages (from-to)	2706-2707
Number of pages	2
Journal	Journal of the American Chemical Society
Volume	130
Issue number	9
DOIs	https://doi.org/10.1021/ja073235k
State	Published - Mar 5 2008

All Science Journal Classification (ASJC) codes

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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title = "Chromophore fluorination enhances crystallization and stability of soluble anthradithiophene semiconductors",

abstract = "We report dramatic improvements in the stability and crystallinity arising from partial fluorination of soluble anthradithiophene derivatives. These fluorinated materials still behave as p-type semiconductors but with dramatic increases in thermal and photostability compared to the non-fluorinated derivatives. The triethylsilyl-substituted material forms highly crystalline films even from spin-cast solutions, leading to devices with maximum hole mobility greater than1.0 cm2/V s. In contrast, the triisopropylsilyl derivative forms large, high-quality crystals that could serve as the substrate for transistor fabrication. For this compound, mobility as high as 0.1 cm2/V s was measured on the free-standing crystal.",

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T1 - Chromophore fluorination enhances crystallization and stability of soluble anthradithiophene semiconductors

AU - Subramanian, Sankar

AU - Sung, Kyu Park

AU - Parkin, Sean R.

AU - Podzorov, Vitaly

AU - Jackson, Thomas N.

AU - Anthony, John E.

PY - 2008/3/5

Y1 - 2008/3/5

N2 - We report dramatic improvements in the stability and crystallinity arising from partial fluorination of soluble anthradithiophene derivatives. These fluorinated materials still behave as p-type semiconductors but with dramatic increases in thermal and photostability compared to the non-fluorinated derivatives. The triethylsilyl-substituted material forms highly crystalline films even from spin-cast solutions, leading to devices with maximum hole mobility greater than1.0 cm2/V s. In contrast, the triisopropylsilyl derivative forms large, high-quality crystals that could serve as the substrate for transistor fabrication. For this compound, mobility as high as 0.1 cm2/V s was measured on the free-standing crystal.

AB - We report dramatic improvements in the stability and crystallinity arising from partial fluorination of soluble anthradithiophene derivatives. These fluorinated materials still behave as p-type semiconductors but with dramatic increases in thermal and photostability compared to the non-fluorinated derivatives. The triethylsilyl-substituted material forms highly crystalline films even from spin-cast solutions, leading to devices with maximum hole mobility greater than1.0 cm2/V s. In contrast, the triisopropylsilyl derivative forms large, high-quality crystals that could serve as the substrate for transistor fabrication. For this compound, mobility as high as 0.1 cm2/V s was measured on the free-standing crystal.

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Chromophore fluorination enhances crystallization and stability of soluble anthradithiophene semiconductors

Abstract

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