Relating Molecular Morphology to Charge Mobility in Semicrystalline Conjugated Polymers

Jones, M.L.; Huang, D.M.; Chakrabarti, B.; Groves, C.

doi:10.1021/acs.jpcc.5b11511

Relating Molecular Morphology to Charge Mobility in Semicrystalline Conjugated Polymers

Jones, M.L.; Huang, D.M.; Chakrabarti, B.; Groves, C.

Authors

M.L. Jones

D.M. Huang

B. Chakrabarti

Professor Chris Groves chris.groves@durham.ac.uk
Professor

Abstract

The molecular-level origins of the effects of annealing temperature and molecular weight on hole mobility in P3HT are elucidated using coarse-grained molecular dynamics, quantum chemical calculations, and kinetic Monte Carlo charge-transport simulations on a variety of realistic thin-film morphologies. The zero-field hole mobility is shown to increase as the annealing temperature or average molecular weights of samples are increased, in accordance with experimental results. Crystal structure analysis shows that the annealing temperature dependence of the mobility can be attributed to the size and structural order of the crystallites in both the chain-backbone and π-stacking directions. However, the molecular weight dependence of the mobility cannot be rationalized in the same way. Longer chains are shown to belong to more crystallites in the morphology, suggesting that the crystals become better connected as the molecular weight of the sample increases. We show that engineering samples to have an increased fraction of these long “tie chains” within the morphology improves mobility. As such, we propose that crystal connectivity in the noncrystalline portions of the morphology is similarly important in determining carrier mobility as crystallite size and order for semicrystalline conjugated polymers.

Citation

Jones, M., Huang, D., Chakrabarti, B., & Groves, C. (2016). Relating Molecular Morphology to Charge Mobility in Semicrystalline Conjugated Polymers. Journal of Physical Chemistry C, 120(8), 4240-4250. https://doi.org/10.1021/acs.jpcc.5b11511

Journal Article Type	Article
Acceptance Date	Jan 18, 2016
Online Publication Date	Feb 22, 2016
Publication Date	Mar 3, 2016
Deposit Date	Sep 9, 2015
Publicly Available Date	Mar 7, 2016
Journal	Journal of Physical Chemistry C
Print ISSN	1932-7447
Electronic ISSN	1932-7455
Publisher	American Chemical Society
Peer Reviewed	Peer Reviewed
Volume	120
Issue	8
Pages	4240-4250
DOI	https://doi.org/10.1021/acs.jpcc.5b11511
Public URL	https://durham-repository.worktribe.com/output/1403096

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