Ramin Noruzi scite author profile

Charge transport in molecular solids, such as semiconducting polymers, is strongly affected by packing and structural order over several length scales. Conventional approaches to modeling these phenomena range from analytical models to numerical models using quantum mechanical calculations. While analytical approaches cannot account for detailed structural effects, numerical models are expensive for exhaustive (and statistically significant) analysis. Here, we report a computationally scalable methodology using graph theory to explore the influence of molecular ordering on charge mobility. This model accurately reproduces the analytical results for transport in nematic and isotropic systems, as well as experimental results of the dependence of the charge carrier mobility on orientation correlation length for polymers. We further model how defect distribution (correlated and uncorrelated) in semiconducting polymers can modify the mobility, predicting a critical defect density above which the mobility plummets. This work enables rapid (and computationally extensible) evaluation of charge mobility semiconducting polymer devices.

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NURBS-based microstructure design for organic photovoltaics

Noruzi

Ghadai

Bingol

et al. 2020

Computer-Aided Design

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Computational characterization of charge transport resiliency in molecular solids

Pokuri

Ryno

Noruzi

et al. 2022

Mol. Syst. Des. Eng.

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Following the crystal growth of anthradithiophenes through atomistic molecular dynamics simulations and graph characterization

Ryno

Noruzi

Karunasena

et al. 2022

Mol. Syst. Des. Eng.

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Ramin Noruzi

A graph based approach to model charge transport in semiconducting polymers

NURBS-based microstructure design for organic photovoltaics

Computational characterization of charge transport resiliency in molecular solids

Following the crystal growth of anthradithiophenes through atomistic molecular dynamics simulations and graph characterization

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