Impact of Backbone Rigidity on the Thermomechanical Properties of Semiconducting Polymers with Conjugation Break Spacers

Galuska, Luke; McNutt, William W.; Qian, Zhiyuan; Song, Zhanqian; Weller, Daniel W.; Dhakal, Sujata; King, Eric R.; Morgan, Sarah E.; Azoulay, Jason D.; Mei, Jianguo; Gu, Xiaodan

doi:10.1021/acs.macromol.0c00889

Cited by 69 publications

(104 citation statements)

References 55 publications

(93 reference statements)

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“…BBL chains exhibit large persistence lengths of up to ≈153 nm (limited by the overall chain length), [ 45 ] whereas the persistence length of the NDI‐T2 backbone appears to be limited to ≈26 nm, regardless of the overall chain length. [ 46 ] We suggest that rigid long chains of BBL extend across amorphous regions connecting multiple crystallites. Although dry AFM and TEM images showed no porosity for BBL in the length scales that we could investigate, we postulate that these inter crystallite disordered regions have enough void space to allow electrolyte intercalation, as evidenced by GISAXS.…”

Section: Discussionmentioning

confidence: 99%

Mixed Conduction in an N‐Type Organic Semiconductor in the Absence of Hydrophilic Side‐Chains

Surgailis

Savva

Druet

et al. 2021

Adv Funct Materials

118

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Organic electrochemical transistors (OECTs) are the building blocks of biosensors, neuromorphic devices, and complementary circuits. One rule in the materials design for OECTs is the inclusion of a hydrophilic component in the chemical structure to enable ion transport in the film. Here, it is shown that the ladder-type, side-chain free polymer poly(benzimidazobenzophenanthro line) (BBL) performs significantly better in OECTs than the donor-acceptor type copolymer bearing hydrophilic ethylene glycol side chains (P-90). A combination of electrochemical techniques reveals that BBL exhibits a more efficient ion-to-electron coupling and higher OECT mobility than P-90. In situ atomic force microscopy scans evidence that BBL, which swells negligibly in electrolytes, undergoes a drastic and permanent change in morphology upon electrochemical doping. In contrast, P-90 substantially swells when immersed in electrolytes and shows moderate morphology changes induced by dopant ions. Ex situ grazing incidence wide-angle X-ray scattering suggests that the particular packing of BBL crystallites is minimally affected after doping, in contrast to P-90. BBL's ability to show exceptional mixed transport is due to the crystallites' connectivity, which resists water uptake. This side chain-free route for the design of mixed conductors could bring the n-type OECT performance closer to the bar set by their p-type counterparts.

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Section: Discussionmentioning

confidence: 99%

Mixed Conduction in an N‐Type Organic Semiconductor in the Absence of Hydrophilic Side‐Chains

Surgailis

Savva

Druet

et al. 2021

Adv Funct Materials

118

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“…Among the above‐mentioned approaches, achieving suitable microstructure in all‐PSCs plays a vital role in improving device performance. [ 3,6,20–22 ] However, some major problems, related to the blend morphologies of P D s and P A s, namely the bulk heterojunction (BHJ), which is generally formed during P D ‐ P A mixture solution casting, have been identified in all‐PSCs, including large‐scale demixing of P D / P A domains, [ 8,21 ] unoptimized P D / P A ordering, [ 23,24 ] and misaligned molecular orientation at P D ‐ P A interfaces. [ 25,26 ] Thus, reasonable use of different morphology control strategies, such as modification of molecular structures, [ 5,9,21,27 ] selection of solvent and additive, [ 6,20,28 ] thermal annealing, [ 6,22 ] and so on, to modify domain size and phase purity in all‐PSCs is critical.…”

Section: Introductionmentioning

confidence: 99%

High‐Performance All‐Polymer Solar Cells with a Pseudo‐Bilayer Configuration Enabled by a Stepwise Optimization Strategy

Wang

et al. 2021

Adv Funct Materials

112

105

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In this work, an efficiency of 15.17% in the PBDB‐T/PYT all‐PSCs fabricated by a layer‐by‐layer (LbL) deposition technique is achieved by synergistically controlling additive dosages, which is not only higher than that (14.06%) of the corresponding bulk heterojunction (BHJ) device, but also the top efficient for all‐PSCs. Through the studies of physical dynamics and morphological characteristics, it is found that the LbL film can effectively improve optical and electronic properties, ensure exciton separation, charge generation and extraction, reduce trap‐assisted recombination, and facilitate hole transfer in LbL blends, thus achieving higher performance compared to its BHJ counterpart. Notably, the synergistic regulation of additive dosages in donor and acceptor solutions is also confirmed in the other three photovoltaic systems. Of particular note is that over 15% device performance is also achieved in the PBDB‐T/PYT LbL all‐PSCs fabricated via a blade‐coating technique, further demonstrating the great significance of this synergistic additive‐doping strategy for the printing fabrication of organic photovoltaics.

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“…2a). As previous studies have demonstrated that the T g increases with increasing chain stiffness, 22 this explains how the P(R F Mi-St) can have a T g Fig. 1 (a) Synthesis of R F Mi (3).…”

Section: Resultsmentioning

confidence: 69%

Perfluoroalkylated alternating copolymer possessing solubility in fluorous liquids and imaging capabilities under high energy radiation

Jung

Kim

et al. 2021

RSC Adv.

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Impact of Backbone Rigidity on the Thermomechanical Properties of Semiconducting Polymers with Conjugation Break Spacers

Cited by 69 publications

References 55 publications

Mixed Conduction in an N‐Type Organic Semiconductor in the Absence of Hydrophilic Side‐Chains

Mixed Conduction in an N‐Type Organic Semiconductor in the Absence of Hydrophilic Side‐Chains

High‐Performance All‐Polymer Solar Cells with a Pseudo‐Bilayer Configuration Enabled by a Stepwise Optimization Strategy

Perfluoroalkylated alternating copolymer possessing solubility in fluorous liquids and imaging capabilities under high energy radiation

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