Conjugated Polymer Controlled Morphology and Charge Transport of Small-Molecule Organic Semiconductors

He, Zhengran; Zhang, Ziyang; Bi, Sheng; Chen, Jihua; Li, Dawen

doi:10.1038/s41598-020-61282-x

Cited by 41 publications

(20 citation statements)

References 45 publications

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“…9 Nanowires (NWs) as active layers of UV-OLEDs have attracted considerable attention due to their unique merits as compared to the thin lm based devices. [10][11][12][13] While thin lms may exhibit an abundance of grain boundaries and joint defects, [14][15][16][17][18] where non-radiative recombinations can occur, NWs effectively circumvent this issue and exhibit enhanced emission efficiency. 19 Besides, because of the less contact areas between the n-type and p-type semiconductor materials, epitaxial heterojunctions exhibit fewer defect densities and interfacial strains.…”

Section: Introductionmentioning

confidence: 99%

Retracted Article: Wavelength modulation of ZnO nanowire based organic light-emitting diodes with ultraviolet electroluminescence

et al. 2020

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Section: Introductionmentioning

confidence: 99%

Retracted Article: Wavelength modulation of ZnO nanowire based organic light-emitting diodes with ultraviolet electroluminescence

et al. 2020

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“…These effects synergistically attribute to the enhanced crystal alignment, improved film coverage, and enlarged crystal size of TIPS pentacene. Unlike conjugated polymers, which promote π–π interactions and cocrystallization with the organic semiconductor [ 60 , 61 , 62 ], the PFS eliminates such complicated processes, which can be otherwise undesirable for many facile processes. Furthermore, in Table 1 , we summarize miscellaneous properties of PFS [ 63 , 64 , 65 ] and compare them with those of PS.…”

Section: Resultsmentioning

confidence: 99%

Polyferrocenylsilane Semicrystalline Polymer Additive for Solution-Processed p-Channel Organic Thin Film Transistors

Zhang

Asare‐Yeboah

et al. 2021

Polymers

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In this study, we demonstrated for the first time that a metal-containing semicrystalline polymer was used as an additive to mediate the thin film morphology of solution-grown, small-molecule organic semiconductors. By mixing polyferrocenylsilane (PFS) with an extensively-studied organic semiconductor 6,13-bis(triisopropylsilylethynyl) pentacene (TIPS pentacene), PFS as a semicrystalline polymer independently forms nucleation and crystallization while simultaneously ameliorating diffusivity of the blend system and tuning the surface energies as a result of its partially amorphous property. We discovered that the resultant blend film exhibited a 6-fold reduction in crystal misorientation angle and a 3-fold enlargement in average grain width. Enhanced crystal orientation considerably reduces mobility variation, while minimized defects and trap centers located at grain boundaries lessen the adverse impact on the charge transport. Consequently, bottom-gate, top-contact organic thin film transistors (OTFTs) based on the TIPS pentacene/PFS mixture yielded a 40% increase in performance consistency (represented by the ratio of average mobility to the standard deviation of mobility). The PFS semicrystalline polymer-controlled crystallization can be used to regulate the thin film morphology of other high-performance organic semiconductors and shed light on applications in organic electronic devices.

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“…As can be seen from this figure that the binary film showed homogeneous and well defined phase separation. The slight increase phase separation was observed in the ternary film which is beneficial for more efficient charge transport (increase in the charge carrier mobilities) with suppressed bimolecular recombination [ 85,86 ] as evidenced by the enhanced value of FF for the ternary based PSCs.…”

Section: Resultsmentioning

confidence: 99%

Efficient ternary polymer solar cell using wide bandgap conjugated polymer donor with two non‐fullerene small molecule acceptors enabled power conversion efficiency of 16% with low energy loss of 0.47 eV

et al. 2021

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The ternary polymer solar cells (PSCs) were fabricated using a wide bandgap conjugated polymer P and two non‐fullerene small molecule acceptors, i.e. Y6 and BThIND‐Cl, in which the BThIND‐Cl was introduced as the third component. The open‐circuit voltage (Voc) of ternary PSCs increased with the increase of BThIND‐Cl content in the acceptors, signifying the formation of an alloy between BThIND‐Cl and Y6. We have observed that the energy loss of the ternary PSCs is decreased as compared to the binary counterparts, contributing to the improvement in Voc of ternary PSCs. The short circuit current as well as fill factor (FF) of the ternary PSCs were also enhanced with 0.4 weight ratio of BThIND‐Cl in the acceptors i.e.P:BThIND‐Cl:Y6 (1:0.4:1.1), resulting in overall power conversion efficiency (PCE) up to 16.08% of the optimized ternary PSCs. The improvement in the short circuit current and FF of the ternary PSCs is originated from the more molecular packing and molecular crystallinity, efficient light harvesting, excess exciton generation dissociation, and balanced charge transport. Moreover, the low value of the energy loss (0.47 eV) which may be lowest for the ternary based PSCs with PCE exceeding 16% which may be originated from the suppressed non‐radiative recombination loss. The might be due to the small highest occupied molecular orbital offsets between the combined alloyed acceptor and donor, resulting to the improvement in Voc for ternary PSC as compared to P:Y6 based PSCs.

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Conjugated Polymer Controlled Morphology and Charge Transport of Small-Molecule Organic Semiconductors

Cited by 41 publications

References 45 publications

Retracted Article: Wavelength modulation of ZnO nanowire based organic light-emitting diodes with ultraviolet electroluminescence

Retracted Article: Wavelength modulation of ZnO nanowire based organic light-emitting diodes with ultraviolet electroluminescence

Polyferrocenylsilane Semicrystalline Polymer Additive for Solution-Processed p-Channel Organic Thin Film Transistors

Efficient ternary polymer solar cell using wide bandgap conjugated polymer donor with two non‐fullerene small molecule acceptors enabled power conversion efficiency of 16% with low energy loss of 0.47 eV

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