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N <sub>2</sub> –H <sub>2</sub> capacitively coupled radio-frequency discharges at low pressure. Part I. Experimental results: effect of the H <sub>2</sub> amount on electrons, positive ions and ammonia formation

Audrey Chatain, Miguel Jiménez-Redondo, Ludovic Vettier, Olivier Guaitella, Nathalie Carrasco, Luis Lemos Alves, Luis Marques, Guy Cernogora

2020Plasma Sources Science and Technology21 citationsDOIOpen Access PDF

Abstract

Abstract The mixing of N 2 with H 2 leads to very different plasmas from pure N 2 and H 2 plasma discharges. Numerous issues are therefore raised involving the processes leading to ammonia (NH 3 ) formation. The aim of this work is to better characterize capacitively-coupled radiofrequency plasma discharges in N 2 with few percents of H 2 (up to 5%), at low pressure (0.3–1 mbar) and low coupled power (3–13 W). Both experimental measurements and numerical simulations are performed. For clarity, we separated the results in two complementary parts. The actual one (first part), presents the details on the experimental measurements, while the second focuses on the simulation, a hybrid model combining a 2D fluid module and a 0D kinetic module. Electron density is measured by a resonant cavity method. It varies from 0.4 to 5 × 10 9 cm −3 , corresponding to ionization degrees from 2 × 10 −8 to 4 × 10 −7 . Ammonia density is quantified by combining IR absorption and mass spectrometry. It increases linearly with the amount of H 2 (up to 3 × 10 13 cm −3 at 5% H 2 ). On the contrary, it is constant with pressure, which suggests the dominance of surface processes on the formation of ammonia. Positive ions are measured by mass spectrometry. Nitrogen-bearing ions are hydrogenated by the injection of H 2 , N 2 H + being the major ion as soon as the amount of H 2 is &gt;1%. The increase of pressure leads to an increase of secondary ions formed by ion/radical–neutral collisions (ex: N 2 H + , NH 4 + , H 3 + ), while an increase of the coupled power favours ions formed by direct ionization (ex: N 2 + , NH 3 + , H 2 + ).

Topics & Concepts

IonChemistryPlasmaKinetic energyAmmoniaIonizationAnalytical Chemistry (journal)Electron densityAbsorption (acoustics)Atomic physicsWork (physics)Mixing (physics)ElectronPower densityHydrogenReaction rate constantElectron ionizationPlasma parametersIon sourceElectron temperatureIonization energyHighly charged ionMass spectrometryNitrogenAtmospheric pressureArgonLangmuir probeNumber densityPlasma diagnosticsPlasma Applications and DiagnosticsPlasma Diagnostics and ApplicationsPlasma and Flow Control in Aerodynamics
N <sub>2</sub> –H <sub>2</sub> capacitively coupled radio-frequency discharges at low pressure. Part I. Experimental results: effect of the H <sub>2</sub> amount on electrons, positive ions and ammonia formation | Litcius