Optimizing Morphology to Trade Off Charge Transport and Mechanical Properties of Stretchable Conjugated Polymer Films

Abstract: Conjugated polymers are a promising candidate for large-area stretchable electronics because of their tunable electrical and mechanical properties, light weight, and low-cost solution processing. Significant research progress has been achieved in stretchable polymer electronics by synthesizing novel conjugated polymer materials and designing new device geometries. However, the inherent competition between high charge mobility and good mechanical compliance has long existed for conjugated polymer films. In this… Show more

“…It is known that conjugated polymers form amorphous and semicrystalline structures when processed to thin lms. [43][44][45] In the ordered regions the charge transport is delocalised whereas it is very localised in the amorphous parts. Thin lm crystallinity is determined by several parameters and depends on many conditions from synthesis to lm processing.…”

Unrevealing the interaction between O₂ molecules and poly(3-hexylthiophene-2,5-diyl) (P3HT)

“…It is known that conjugated polymers form amorphous and semicrystalline structures when processed to thin lms. [43][44][45] In the ordered regions the charge transport is delocalised whereas it is very localised in the amorphous parts. Thin lm crystallinity is determined by several parameters and depends on many conditions from synthesis to lm processing.…”

Unrevealing the interaction between O₂ molecules and poly(3-hexylthiophene-2,5-diyl) (P3HT)

“…33 CPs with high molecular weights have a high propensity to bridge adjacent crystalline domains, thereby generating tie chains in the thin film. 34 D–A-type CPs with high persistence lengths (ranging from 5–40 nm) show high critical molecular weights to form a percolation network of tie chains within the crystalline and amorphous domains. 35 However, reducing crystallinity and enhancing chain entanglement are favorable for forming a percolation network of tie chains within the crystalline and amorphous domains.…”

Strain-insensitive naphthalene-diimide-based conjugated polymers through sequential regularity control

“…24 Therefore, it is essential to study the microstructure-property relationship and develop strategies to control molecular packing and film morphology. 17 In-depth investigation of CP aggregation, crystallization behaviors, and phase transitions alongside developing new experimental and computational microstructure characterization will help address these limitations.…”

“…1a). 17,33 The intrinsic structural anisotropy and polymer chain defects cause non-coherent charge transport, making measuring and predicting charge mobility challenging. 34 On the contrary, highly ordered regioregular CPs tend to reveal high charge mobility.…”

“…1c). 17,27 In the case of a CP, deformability is governed both by a rigid conjugated backbone and flexible side chains. That results in complex behavior.…”

Gaining control over conjugated polymer morphology to improve the performance of organic electronics