1953
DOI: 10.1038/1711077a0
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Fractional Electrification of Polar Polymers

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Cited by 37 publications
(18 citation statements)
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“…In 1902, Knoblauch observed that solid organic acids tended to become negatively charged and solid organic bases tended to become positively charged when these powders were shaken from a piece of filter paper; [23] he proposed a proton-transfer mechanism for contact electrification. Medley made similar observations with acidic and basic ion-exchange resins in 1953, [24] and Diaz proposed that a proton-transfer mechanism could explain the contact electrification of a wide range of insulating materials. [13] Protontransfer is, of course, a specific example of the more-general mechanism of ion transfer.…”
Section: Mechanisms Of Contact Electrification: Electron Transfer Vermentioning
confidence: 71%
See 1 more Smart Citation
“…In 1902, Knoblauch observed that solid organic acids tended to become negatively charged and solid organic bases tended to become positively charged when these powders were shaken from a piece of filter paper; [23] he proposed a proton-transfer mechanism for contact electrification. Medley made similar observations with acidic and basic ion-exchange resins in 1953, [24] and Diaz proposed that a proton-transfer mechanism could explain the contact electrification of a wide range of insulating materials. [13] Protontransfer is, of course, a specific example of the more-general mechanism of ion transfer.…”
Section: Mechanisms Of Contact Electrification: Electron Transfer Vermentioning
confidence: 71%
“…Medley was the first to observe a correlation between the sign of the covalently bound ion and the charge acquired through contact electrification in his study of the contact electrification of ionexchange resins. [24] Diaz and co-workers made detailed studies of the contact electrification of ion-containing polymers. [31] The sign of charge that these materials acquired through contact electrification was always the same as the sign of the covalently bound ion.…”
Section: Experimental Evidence For the Transfer Of Mobile Ions Upon Cmentioning
confidence: 99%
“…The rather desultory activity in this field died off almost completely about 1930, at which time-as indeed up to the present-it could be fairly said that no clear picture of either the qualitative or quantitative phenomena had emerged. But in the late 1940's, to a large extent stimulated by the demands of the textile and the plastics industries, attack on the problem was made anew; see, for example, references [1,3,6,7,8,9,10,12,13,21,23,26,27] . There is hope that present-day techniques and materials, coupled with the advances in theory of the solid state, will permit substantial advances in the understanding of this traditional subject.…”
Section: Introductionmentioning
confidence: 99%
“…2, is in good agreement with the position of the materials in the triboelectric series. Two mechanisms that have been proposed to explain the characteristic net charging of different insulating materials upon contact in the presence of an adsorbed water bridge are as follows: first, by proton exchange between acidic or alkaline surfaces, with acidic surfaces acquiring negative net charge and alkaline surfaces positive net charge; [21][22][23][24] and second, by asymmetric partitioning of hydroxide ions. 14 This effect may be strongest for two materials with low and high water permeation or uptake, forming a negatively charged, sharp adsorbed-water/polymer interface for the hydrophobic material and a less charged, diffuse adsorbed water/polymer interface for the water-absorbing material.…”
Section: H Net Charging Mechanisms and Classification Of Triboelectrmentioning
confidence: 99%