2019
DOI: 10.1038/s41598-019-51748-y
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Dependence of track etching kinetics on chemical reactivity around the ion path

Abstract: Etching kinetics of swift heavy ions (SHI) tracks in olivine is investigated in frame of experimentally verified numerical approach. The model takes into account variation of induced chemical reactivity of the material around the whole ion trajectory with the nanometric accuracy. This enables a quantitative description of wet chemical etching of SHI tracks of different lengths and orientations towards to the sample surface. It is demonstrated that two different modes of etching, governed by diffusion of etchan… Show more

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Cited by 11 publications
(12 citation statements)
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“…The irradiation of swift heavy ions on the polymer matrix is known to produce reactive sites like free radicals, double bonds, and ionic species in the polymer chains as the energy of the particle radiation is much higher than the single-bond energy of carbon–carbon or carbon–hydrogen bonds present in the backbone of the polymer . After selective chemical etching, the free radicals are uncovered within the nanochannels and are being utilized to graft other polymers like polystyrene exclusively in the nanochannels through polymerization .…”
Section: Results and Discussionmentioning
confidence: 99%
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“…The irradiation of swift heavy ions on the polymer matrix is known to produce reactive sites like free radicals, double bonds, and ionic species in the polymer chains as the energy of the particle radiation is much higher than the single-bond energy of carbon–carbon or carbon–hydrogen bonds present in the backbone of the polymer . After selective chemical etching, the free radicals are uncovered within the nanochannels and are being utilized to graft other polymers like polystyrene exclusively in the nanochannels through polymerization .…”
Section: Results and Discussionmentioning
confidence: 99%
“…In comparison, this work reports power density and current density of 45 mW/cm 2 and 298 mA/cm 2 , respectively, using nanochannels created on the PVDF nanohybrid after irradiating in an accelerator with silver ions. However, the high current as well as power density of the functionalized nanohybrid membrane prepared through functionalization of the accelerator-irradiated hybrid membrane, are visualized from the high proton conduction using the ionomer membrane . The excellent fuel cell performance of the functionalized nanohybrid membrane against standard Nafion 117 and PVDF-g-s is mainly due to the enhanced degree of sulfonation in the presence of 2D-layered silicate uniformly dispersed in the polymer matrix.…”
Section: Results and Discussionmentioning
confidence: 99%
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“…In this paper, we present a numerical approach describing SHI track etching on the atomic level. In the first version of our model, we used the transition state theory and variations of the Gibbs energy of the damaged atomic ensemble to identify the most chemically active areas. The approach was limited to cylindrical geometry, which does not allow us to study the pore geometry depending on material structure.…”
Section: Introductionmentioning
confidence: 99%