Realistic geometric modeling of the dielectric constant and its effect on the discharge with a porous dielectric

Mao, Yilong; Wang, Hao; Yao, Chenguo; Chen, Deqi; Wu, Feiyu; Chen, Feng

doi:10.1063/5.0146024

AIP Advances

2023

DOI: 10.1063/5.0146024

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Realistic geometric modeling of the dielectric constant and its effect on the discharge with a porous dielectric

Yilong Mao

Hao Wang

Chenguo Yao

et al.

Abstract: Porous dielectric discharge (PDD) is a critical phenomenon in plasma catalysis, biomedical tissue surface functionalization, and all-solid-state battery design. The dielectric constant of porous dielectric (PD) significantly impacts discharge characteristics and breakdown mechanisms across different applications. However, the complex spatial structure of porous media presents challenges in diagnosing and simulating PDD, limiting our understanding of its mechanism. In this study, the real geometric model of PD … Show more

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2024

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Statistical property of absorbed energy in monolayer cell collectives with porous dielectric structure during irreversible electroporation therapy

Wu,

Li,

Chen

et al. 2024

Applied Physics Letters

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In the irreversible electroporation (IRE) therapy, the absorbed energy is normally characterized as the applied dose and assumed to be distributed in the homogeneous dielectric. By employing statistical analyses, we have studied the absorbed energy distribution in the porous multicellular dielectric, with the geometric patterns randomly generated from the following statistical quantities: system size, cell size, cell concentration, and cell flattening ratio. Parametric formulas regarding the mean and standard deviation of the absorbed energy are obtained through numerical simulations and iterative fitting. Our statistical results reveal that the mean value of absorbed energy with cell concentration exhibits a “conductance” to “resistance” transition, similar to the percolation of two-phase materials, and the direction of the transition flips as cell diameter increases. The standard deviation of energy, however, follows a bell-shaped curve under varied concentration, indicating a shift in energy distribution from an “aggregation” to a “dispersion” state. Based on the parametric formulation, we quantitatively explore the critical threshold of the transition, as well as the general scaling laws of the geometric variables on the mean and standard deviation of the absorbed energy. Our work could help to quantitatively explain the lethality variation in IRE ablation targeting monolayer cell collectives with different geometrical characteristics.

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Statistical property of absorbed energy in monolayer cell collectives with porous dielectric structure during irreversible electroporation therapy

Wu,

Li,

Chen

et al. 2024

Applied Physics Letters

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show abstract

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Realistic geometric modeling of the dielectric constant and its effect on the discharge with a porous dielectric

Cited by 1 publication

References 44 publications

Statistical property of absorbed energy in monolayer cell collectives with porous dielectric structure during irreversible electroporation therapy

Statistical property of absorbed energy in monolayer cell collectives with porous dielectric structure during irreversible electroporation therapy

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