Molecular Doping of PCPDT-BT Copolymers: Comparison of Molecular Complexes with and Without Integer Charge Transfer

Dong, Cheng-Di; Schumacher, Stefan

doi:10.26434/chemrxiv.8332490.v1

Cited by 3 publications

(7 citation statements)

References 11 publications

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“…Therefore, as the method of choice, we use spin-unrestricted density functional theory (DFT), which has previously successfully been used to describe molecular doping in similar contexts. As successfully applied in our previous work, 14,24,31 the electronic states are described with the range-separated cam-B3LYP functional and 6-31G** basis set, including van der Waals interaction on the level of Grimme's D3 dispersion correction.…”

Section: ■ Introductionmentioning

confidence: 99%

“…It should be noted that using the ωB97XD functional and/or a reasonably smaller basis set such as 6-31G* usually gives very close results in terms of integer charge transfer, as tested also in our previous work. 24 The treatment of the dielectric environment uses the polarizable continuum model (PCM) with ϵ = 3. 21 The geometries of all complexes were optimized in the neutral state in the gas phase, so that the geometric change of each molecule caused by possible charge transfer is treated.…”

Section: ■ Introductionmentioning

confidence: 99%

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Microscopic Insights into Charge Formation and Energetics in n-Doped Organic Semiconductors

Dong

Schumacher

2021

J. Phys. Chem. C

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In the molecular doping of organic semiconductors (OSCs), achieving efficient charge generation and managing the energetic cost for charge release from local molecular charge-transfer complexes (CTCs) to the host matrix is of central importance. Experimentally, tremendous progress has been made in this direction. However, the relation between the OSC film structure on a nanoscopic level including different intermolecular geometrical arrangements and the macroscopic properties of doped OSC films is usually only established quite indirectly. Explicit microscopic insights into the underlying doping mechanisms and resulting electronic structure are still scarce and mostly limited to the study of the individual molecular constituents or isolated bimolecular dopant:host complexes. In the present study, we investigate n-type doping of the frequently investigated OSC materials ZnPC and F8ZnPc and their mixtures which are n-doped with 2-Cyc-DMBI in different dielectric environments. We report significant electronic differences for complexes with nominally the same material composition but different geometrical structures. One specific important finding in this context is that complexes containing two adjacent dopant molecules show much reduced ionization energy values which leads to substantially reduced energy cost for charge release. Furthermore, our results demonstrate that important trends toward macroscopic system behavior can already be obtained with increasing size and varying composition of the relatively small molecular dopant–host complexes considered, including systematic shifts in the Fermi level energies in the doped OSC.

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Section: ■ Introductionmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

Microscopic Insights into Charge Formation and Energetics in n-Doped Organic Semiconductors

Dong

Schumacher

2021

J. Phys. Chem. C

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“…Our previous work showed that CN6-CP induces more robust integer charge transfer (ICT) than other dopants such as F4TCNQ, with less influence of the geometric details of the complexes formed. 22,23 This choice facilitated an easier first computational investigation of molecular double doping.…”

Section: ■ System and Methodsmentioning

confidence: 99%

“…In our previous work, it was shown that the ωB97X-D functional gives a similar description of charge transfer processes as the CAM-B3LYP functional. 22 To account for the electrostatic effects of an actual OSC environment, a dielectric background with ε = 3 is used within the polarizable continuum model (PCM). To shed some light on the effect of the chosen ε, we also varied its value from 1.5 to 5.0.…”

Section: ■ System and Methodsmentioning

confidence: 99%

“…For example, further details of the charge formation such as the formation of individual polarons and/or bipolarons upon double doping are of significant relevance for the transport properties of the resulting doped system. 17 −19,21−23 In this work, we investigate simultaneous charge transfer between two p(g 4 2T-TT) conjugated polymer (oligomer) chains in a close arrangement and a single CN6-CP p-type dopant molecule, as illustrated in Figure 1a possibility for other electronic processes to occur, 22 the results clearly show double p-type doping in the form of double integer charge transfer from the conjugated chains onto the dopant molecule: a CN6-CP dianion is formed along with two individual singly charged polarons, one on each polymer chain.…”

Section: ■ Introductionmentioning

confidence: 99%

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Microscopic Study of Molecular Double Doping

2022

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Double doping, in which a single dopant molecule induces two charge carriers in an organic semiconductor (OSC), was recently experimentally observed and promises to enhance the efficiency of molecular doping. Here we present a theoretical investigation of p-type molecular double doping in a CN6-CP:bithiophene–thienothiophene OSC system. Our analysis is based on density functional theory (DFT) calculations for the electronic ground state. In a molecular complex with two OSC oligomers and one CN6-CP dopant molecule, we explicitly demonstrate double integer charge transfer and find the formation of two individual polarons on the OSC molecules and a dianion dopant molecule. We show that the vibrational modes and related infrared absorption spectrum of this complex can be traced back to those of the charged dopant and OSC molecules in their isolated forms. The near-infrared optical absorption spectrum calculated by time-dependent DFT shows features of both typical intramolecular polaron excitations and weak intermolecular charge transfer excitations associated with the doping-induced polaron states.

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Enhanced Performance of Organic Field-Effect Transistors by a Molecular Dopant with High Electron Affinity

Cao

Zhai

et al. 2022

ACS Appl. Mater. Interfaces

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Organic field-effect transistors (OFETs) are attractive for next-generation electronics, while doping plays an important role in their performance optimization. In this work, a soluble molecular dopant with high electron affinity, CN6-CP, is investigated to manipulate the performance of OFETs with a p-type organic semiconductor as the transport layer. The performance of the model 2,7-didodecyl[1]benzothieno[3,2-b][1]benzothiophene (C12-BTBT) bottom-gate top-contact (BGTC) OFETs is greatly optimized upon doping by CN6-CP, and the field-effect mobility is improved from 5.5 to 11.1 cm 2 V −1 s −1 , with a widely tunable threshold voltage from −40 to +5 V. Improvements in performance also appear in CN6-CP doped BGBC OFETs. As compared with commonly used molecular dopant F4-TCNQ, CN6-CP exhibits excellent doping effects and great potential for organic electronic applications.

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Molecular Doping of PCPDT-BT Copolymers: Comparison of Molecular Complexes with and Without Integer Charge Transfer

Cited by 3 publications

References 11 publications

Microscopic Insights into Charge Formation and Energetics in n-Doped Organic Semiconductors

Microscopic Insights into Charge Formation and Energetics in n-Doped Organic Semiconductors

Microscopic Study of Molecular Double Doping

Enhanced Performance of Organic Field-Effect Transistors by a Molecular Dopant with High Electron Affinity

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