Issue 6, 2011

A ToF-SIMS study of the deuterium—hydrogen exchange induced by ammonia plasma treatment of polyolefins

Abstract

ToF-SIMS has been used to study the surface functionalization of polypropylene and polyethylene samples by exposure to low-pressure ammonia plasma. Static secondary ion mass spectrometry is an appropriate tool to determine hydrogen isotopes as elements and in fragment ions with high sensitivity and selectivity. Specifically the exchange of hydrogen isotopes and the incorporation of N-containing moieties in the near-surface layer of the polyolefins have been studied in ND3 plasma experiments with conventional polypropylene (h-PP) and polyethylene (h-PE) and NH3 plasma experiments with deuterated polyethylene (d-PE). Considering the exchange of hydrogen between the plasma and the polymer surface studied by using deuterated ammonia and polyolefin samples the conclusion has been derived that polypropylene with its side chain methyl groups is more susceptible to hydrogen exchange reactions. For ND3 plasma treatment of polyethylene and polypropylene similar N-containing fragments were obtained and the measured semi-quantitative ToF-SIMS N-uptake data are rather similar. The observation of a wide range of characteristic mixed CkNlHmDn+ secondary fragment ions suggests complex and manifold reaction pathways at the polymer–plasma interface besides simple grafting of –ND2 or –NH2 moieties formed by ammonia fragmentation in the plasma. Finally, indications of an isotopic effect for hydrogen isotopes in the plasma process have been observed by comparison of ND3/h-PE results with those of NH3/d-PE.

Graphical abstract: A ToF-SIMS study of the deuterium—hydrogen exchange induced by ammonia plasma treatment of polyolefins

Supplementary files

Article information

Article type
Communication
Submitted
07 Feb 2011
Accepted
07 Mar 2011
First published
17 Mar 2011

J. Anal. At. Spectrom., 2011,26, 1157-1165

A ToF-SIMS study of the deuteriumhydrogen exchange induced by ammonia plasma treatment of polyolefins

H. Min, S. Wettmarshausen, J. F. Friedrich and W. E. S. Unger, J. Anal. At. Spectrom., 2011, 26, 1157 DOI: 10.1039/C1JA10043B

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