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Autori principali: Shihab, Mohammed, El-Ashry, Alaa, Ibrahim, Seham A., Salah, Sarah, Elshaer, Abdelhamid, El-Siragy, Nabil, Elbendary, Atef A.
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2603.01634
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author Shihab, Mohammed
El-Ashry, Alaa
Ibrahim, Seham A.
Salah, Sarah
Elshaer, Abdelhamid
El-Siragy, Nabil
Elbendary, Atef A.
author_facet Shihab, Mohammed
El-Ashry, Alaa
Ibrahim, Seham A.
Salah, Sarah
Elshaer, Abdelhamid
El-Siragy, Nabil
Elbendary, Atef A.
contents Atmospheric-pressure non-thermal plasmas are promising platforms for advanced oxidation in water treatment, yet quantitative coupling between reactive species delivery, solution chemistry, and molecular fragmentation remains unclear. We investigate degradation of two structurally related azo dyes using an Ar plasma jet in a plasma-liquid discharge configuration with an immersed counter-electrode to enhance interfacial coupling. Plasma exposure generated a reactive oxygen and nitrogen species environment and strong acidification, increasing proton concentration up to 49-fold. UV-Vis analysis showed rapid chromophore decay, achieving 0.88 and 0.94 removal within 40 min. Biphasic kinetics indicated a transition from radical-flux-controlled to transport-influenced regimes. Fluorescence and Raman spectroscopy confirmed transient oxidized intermediates and progressive pi-conjugation breakdown, elucidating plasma-driven oxidative fragmentation mechanisms.
format Preprint
id arxiv_https___arxiv_org_abs_2603_01634
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Atmospheric-Pressure Ar/Air Plasma Jet-Induced Degradation of Azo Dyes in Aqueous Solutions: Kinetic and Mechanistic Insights
Shihab, Mohammed
El-Ashry, Alaa
Ibrahim, Seham A.
Salah, Sarah
Elshaer, Abdelhamid
El-Siragy, Nabil
Elbendary, Atef A.
Plasma Physics
Atmospheric-pressure non-thermal plasmas are promising platforms for advanced oxidation in water treatment, yet quantitative coupling between reactive species delivery, solution chemistry, and molecular fragmentation remains unclear. We investigate degradation of two structurally related azo dyes using an Ar plasma jet in a plasma-liquid discharge configuration with an immersed counter-electrode to enhance interfacial coupling. Plasma exposure generated a reactive oxygen and nitrogen species environment and strong acidification, increasing proton concentration up to 49-fold. UV-Vis analysis showed rapid chromophore decay, achieving 0.88 and 0.94 removal within 40 min. Biphasic kinetics indicated a transition from radical-flux-controlled to transport-influenced regimes. Fluorescence and Raman spectroscopy confirmed transient oxidized intermediates and progressive pi-conjugation breakdown, elucidating plasma-driven oxidative fragmentation mechanisms.
title Atmospheric-Pressure Ar/Air Plasma Jet-Induced Degradation of Azo Dyes in Aqueous Solutions: Kinetic and Mechanistic Insights
topic Plasma Physics
url https://arxiv.org/abs/2603.01634