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Tunable Dopants with Intrinsic Counterion Separation Reveal the Effects of Electron Affinity on Dopant Intercalation and Free Carrier Production in Sequentially Doped Conjugated Polymer Films. | LitMetric

AI Article Synopsis

  • Carrier mobility in doped conjugated polymers is hindered by Coulomb interactions with counterions, complicating the study of how different dopants affect charge generation.* -
  • Dodecaborane (DDB)-based dopants help overcome these limitations by electrostatically shielding counterions, allowing for greater carrier mobility and generating more carriers with higher energetic offsets.* -
  • The research reveals that DDBs can intercalate within the crystalline structure of polymers and emphasizes the role of oxidation potential in enhancing doping efficiency, achieving up to 100% in certain cases.*

Article Abstract

Carrier mobility in doped conjugated polymers is limited by Coulomb interactions with dopant counterions. This complicates studying the effect of the dopant's oxidation potential on carrier generation because different dopants have different Coulomb interactions with polarons on the polymer backbone. Here, dodecaborane (DDB)-based dopants are used, which electrostatically shield counterions from carriers and have tunable redox potentials at constant size and shape. DDB dopants produce mobile carriers due to spatial separation of the counterion, and those with greater energetic offsets produce more carriers. Neutron reflectometry indicates that dopant infiltration into conjugated polymer films is redox-potential-driven. Remarkably, X-ray scattering shows that despite their large 2-nm size, DDBs intercalate into the crystalline polymer lamellae like small molecules, indicating that this is the preferred location for dopants of any size. These findings elucidate why doping conjugated polymers usually produces integer, rather than partial charge transfer: dopant counterions effectively intercalate into the lamellae, far from the polarons on the polymer backbone. Finally, it is shown that the IR spectrum provides a simple way to determine polaron mobility. Overall, higher oxidation potentials lead to higher doping efficiencies, with values reaching 100% for driving forces sufficient to dope poorly crystalline regions of the film.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7357248PMC
http://dx.doi.org/10.1002/adfm.202001800DOI Listing

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