Tribocharged Polymer Surfaces: Solvent Effect on Pattern Formation and Modification

Francisco, Kelly R.; Burgo, Thiago A. L.; Galembeck, Fernando

doi:10.1246/cl.2012.1256

Cited by 5 publications

(6 citation statements)

References 22 publications

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“…39 The fractal dimension obtained from linescans drawn on SEI micrographs in this paper agrees with previous results obtained by atomic force microscopy, as expected considering that both are determined mainly by surface topography. Particle removal by washing surfaces with suitable liquids is usually a simple task and this explains why a large fraction of the tribocharge is easily removed from various polymer surfaces by simple immersion in both polar and apolar liquids.…”

Section: Discussionsupporting

confidence: 92%

Triboelectricity in insulating polymers: evidence for a mechanochemical mechanism

et al. 2014

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Transfer of reaction products formed on the surfaces of two mutually rubbed dielectric solids makes an important if not dominating contribution to triboelectricity. New evidence in support of this statement is presented in this report, based on analytical electron microscopy coupled to electrostatic potential mapping techniques. Mechanical action on contacting surface asperities transforms them into hot-spots for free-radical formation, followed by electron transfer producing cationic and anionic polymer fragments, according to their electronegativity. Polymer ions accumulate creating domains with excess charge because they are formed at fracture surfaces of pulled-out asperities. Another factor for charge segregation is the low polymer mixing entropy, following Flory and Huggins. The formation of fractal charge patterns that was previously described is thus the result of polymer fragment fractal scatter on both contacting surfaces. The present results contribute to the explanation of the centuries-old difficulties for understanding the "triboelectric series" and triboelectricity in general, as well as the dissipative nature of friction, and they may lead to better control of friction and its consequences.

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Section: Discussionsupporting

confidence: 92%

Triboelectricity in insulating polymers: evidence for a mechanochemical mechanism

et al. 2014

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“…Most important, knowing that polymer friction produces charges that in turn contribute to increased friction coefficients allows us to avoid experimental limitations imparted by electrical charge effects to macro and micromachines27 by using effective charge removal or by suppressing charge formation, using techniques described in recent work from this group3537 or chemical surface modification, as in this work. For most polymers, charged species are easily removed by immersion in ethanol or propanol and charge formation is suppressed by mildly swelling their surfaces with these and other common liquids.…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, it is now clear that in the tribocharged polytetrafluoroethylene (PTFE)-polyethylene (PE) pair the positive ions derive from mechanochemical transformation of PE chains while the negative ions derive from PTFE35. Both types of ions are selectively extracted by rinsing with common solvents and this is now the basis for a simple but effective technique for static charge removal from polymers and other insulators37.…”

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confidence: 99%

Friction coefficient dependence on electrostatic tribocharging

Burgo

Silva

Balestrin

et al. 2013

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Friction between dielectric surfaces produces patterns of fixed, stable electric charges that in turn contribute electrostatic components to surface interactions between the contacting solids. The literature presents a wealth of information on the electronic contributions to friction in metals and semiconductors but the effect of triboelectricity on friction coefficients of dielectrics is as yet poorly defined and understood. In this work, friction coefficients were measured on tribocharged polytetrafluoroethylene (PTFE), using three different techniques. As a result, friction coefficients at the macro- and nanoscales increase many-fold when PTFE surfaces are tribocharged, but this effect is eliminated by silanization of glass spheres rolling on PTFE. In conclusion, tribocharging may supersede all other contributions to macro- and nanoscale friction coefficients in PTFE and probably in other insulating polymers.

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“…Immersion in liquids is an effective way to remove tribocharge from a surface. 20,136 Figure 8 shows the effect of some liquids on PTFE tribocharged with PE: ethanol is more effective than water, 10 NaCl aqueous solution and n-hexane. The latter removes positive charges better than negative charges.…”

Section: Article Typementioning

confidence: 99%

“…The PE film shows weakened mirror image of the PTFE surface, while the PTFE surface also shows lower 40 contrast after the transfer procedure. 136 The observation of contiguous domains with opposite charge allowed a further development that is the identification of polymer ionic fragments as the tribocharge bearing species that will be described in the next section. 45 Actually, using the very first generation of the Kelvin force microscope, Terris and collaborators tapped a tip on a PMMA surface where subsequent electrostatic mapping revealed positive and negative domains in the same area of contact.…”

Section: Article Typementioning

confidence: 99%

Friction, tribochemistry and triboelectricity: recent progress and perspectives

et al. 2014

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Production of electricity by friction is well known but poorly understood and it is the source of electrostatic discharge causing serious accidents. Recent results are in agreement with one of the conflicting views on this problem, according to which triboelectricity in polymers is triggered by mechanochemical and wear or mass transfer phenomena. These results also challenge the widely accepted paradigm of one-way charge transfer that is the basis of the triboelectric series. Experimental results from powerful analytical techniques 10 65 mechanisms leading to solids contact electrification and/or triboelectric charging? The explanation of the production of electrostatic charge comes from a transfer of electrons, ions or both, which are presented in the literature? 16 Poor knowledge on charge accumulation and dissipation 70 mechanisms 17-19 is a root of large-scale personal and property losses, including serious industrial accidents and explosions that are described further in the next section. This is ultimately due to the lack of scientific understanding of the basic phenomena.On the other hand, fundamental electrostatic concepts are well 75 established for semiconductors and metals. 20 When two metals with different work functions are brought into contact, electrons migrate across the interface creating a potential difference between them.

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Tribocharged Polymer Surfaces: Solvent Effect on Pattern Formation and Modification

Cited by 5 publications

References 22 publications

Triboelectricity in insulating polymers: evidence for a mechanochemical mechanism

Triboelectricity in insulating polymers: evidence for a mechanochemical mechanism

Friction coefficient dependence on electrostatic tribocharging

Friction, tribochemistry and triboelectricity: recent progress and perspectives

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