articleThe Journal of Physical Chemistry BJun 1, 2004Closed access

Predictions of Hole Mobilities in Oligoacene Organic Semiconductors from Quantum Mechanical Calculations

WDWei DengWAWilliam A. Goddard

California Institute of Technology

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Abstract

We estimate the hole mobility for oligoacene crystals using quantum mechanics (QM) to calculate the reorganization energy and electron-transfer coupling matrix elements and molecular dynamics (MD) to do the thermal averaging. Using an incoherent transport model we calculate a hole mobility of 6.5 cm2/(V s) for pentacene crystals at 300 K. This can be compared to recent experimental results of 5 cm2/(V s). However, we find that an alternative packing into the crystal could lead to a hole mobility of 15.2 cm2/(V s). This suggests that current materials might still be improved by a factor of ∼3. Such calculations might be useful for finding solid-state structures that would increase the hole mobility for use in…

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Topics & keywords

Topics
Keywords
  • Pentacene
  • Electron mobility
  • Molecular dynamics
  • Semiconductor
  • Organic semiconductor
  • Crystal (programming language)
  • Materials science
  • Condensed matter physics
UN Sustainable Development Goals
  • Affordable and clean energy
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