基于弹性光散射测量的少层石墨烯气相合成在线光学诊断的可行性

IF 3.9 3区环境科学与生态学 Q2 ENGINEERING, CHEMICAL

Journal of Aerosol Science Pub Date : 2025-02-01 DOI:10.1016/j.jaerosci.2024.106497

Halil İbrahim Yazıcı , Christof Schulz , Kyle J. Daun

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引用次数: 0

摘要

气相合成是一种很有前途的方法，可大规模生产高质量的独立少层石墨烯（FLG）颗粒。本研究评估了弹性光散射在表征颗粒形态和区分FLG与煤烟样颗粒（也可能在气相合成过程中同时产生）方面的可行性。FLG颗粒的形态是基于等离子体反应器内产生的FLG颗粒的层析电子显微镜图像来建模的，而合成烟灰颗粒是通过基于火焰烟灰典型形态参数的簇-簇聚集算法产生的。采用离散偶极近似（DDA）和多球t矩阵法分别模拟了合成FLG和烟灰粒子系综的光散射特性。分析了FLG和烟灰颗粒系综的角分辨散射特性，以评估基于散射诊断的可行性，并确定了表征颗粒形态的潜在测量配置。总的来说，某些散射特性，特别是去极化比，被观察到对FLG和烟灰的不同形态方面敏感，这突出了基于光散射的诊断在FLG气相合成过程中表征形态的前景。

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Feasibility of online optical diagnostics during gas-phase synthesis of few-layer graphene based on elastic light scattering measurements

Gas-phase synthesis is a promising method for scalable production of high-quality free-standing few-layer graphene (FLG) particles. This study assesses the feasibility of elastic light scattering in characterizing particle morphology and distinguishing FLG from soot-like particles that may also be produced concurrently during gas-phase synthesis. FLG particle morphology is modeled based on tomographic electron microscopy images of FLG particles produced within a plasma reactor, whereas synthetic soot particles are generated via a cluster–cluster aggregation algorithm based on morphological parameters typical of flame soot. Light scattering properties of ensembles of synthetic FLG and soot particles are simulated via the discrete dipole approximation (DDA) and the multi-sphere T-matrix method, respectively. Angle-resolved scattering properties of ensembles of FLG and soot particles are analyzed to evaluate the feasibility of scattering-based diagnostics and identify potential measurement configurations for characterizing particle morphology. Overall, certain scattering properties, especially the depolarization ratio, are observed to be sensitive to the distinctive morphological aspects of FLG and soot, which highlights the promise of light scattering-based diagnostics for characterizing morphology during gas-phase synthesis of FLG.

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来源期刊

Journal of Aerosol Science 环境科学-工程：化工

CiteScore

8.80

自引率

8.90%

发文量

127

审稿时长

35 days

期刊介绍： Founded in 1970, the Journal of Aerosol Science considers itself the prime vehicle for the publication of original work as well as reviews related to fundamental and applied aerosol research, as well as aerosol instrumentation. Its content is directed at scientists working in engineering disciplines, as well as physics, chemistry, and environmental sciences. The editors welcome submissions of papers describing recent experimental, numerical, and theoretical research related to the following topics: 1. Fundamental Aerosol Science. 2. Applied Aerosol Science. 3. Instrumentation & Measurement Methods.