The study showed that the mosaic charge is a direct result of environmental and sustainable development planning.
Contact electrification (CE) was humanity’s first and only source of electricity until about the eighteenth century, but its true nature remains a mystery. Today, it is seen as a critical component of technologies such as laser printers, LCD production processes, electrostatic coatings, separating plastics for recycling, and more, as well as being a significant industrial hazard (damage to electronic systems, explosions in coal mines, fires. in chemical plants) due to the electrostatic discharges (ESD) that accompany CE. A 2008 study was published in temper nature I found that in a vacuum, the ESDs of a simple duct tape are so strong that they generate enough X-rays to take an X-ray image of a finger.
For a long time, it was believed that two contact/slide materials charge in opposing and uniform directions. However, after CE, it was discovered that both separate surfaces carry both (+) and (-) charges. The formation of the so-called charge mosaic has been attributed to the experience of the inherent heterogeneity of materials in contact or the general “random nature” of CE.
Professor Bartosz A. Grzybowski. Credit: UNIST
A research team, led by Professor Bartosz A. Grzybowski (Department of Chemistry) of the Center for Soft and Living Materials, within the Institute for Basic Sciences (IBS) at Ulsan National Institute of Science and Technology (UNIST) He has investigated possible sources of mosaic shipment for more than a decade. The study is expected to help control potentially harmful electrostatic discharges and was recently published in the journal
Figure 1. Charge mosaics on contact-charged dielectrics. (a) In a conventional view, two electrically neutral materials (grey) are brought into contact and then separated charge uniformly (lower left), one positive (red) and one negative (blue). In an alternative scenario (lower right), each surface develops a highly non-uniform ‘charge mosaic’ with neighboring domains of opposite charge polarities. (b) Collage of charge mosaics reported in the literature (the years and scale bars are indicated). Credit: UNIST
In the paper published recently in Nature Physics, the group of Professor Grzybowski shows that charge mosaics are a direct consequence of ESD. The experiments demonstrate that between delaminating materials the sequences of “sparks” are created and they are responsible for forming the (+/-) charge distributions that are symmetrical on both materials.
“You might think that a discharge can only bring charges to zero, but it actually can locally invert them. It is connected with the fact that it is much easier to ignite the ‘spark’ than to extinguish it,” says Dr. Yaroslav Sobolev, the lead author of the paper. “Even when the charges are reduced to zero, the spark keeps going powered by the field of adjacent regions untouched by this spark.”
The proposed theory explains why charge mosaics were seen on many different materials, including sheets of paper, rubbing balloons, steel balls rolling on Teflon surfaces, or polymers detached from the same or other polymers. It also hints at the origin of the crackling noise when you peel off a sticky tape – it might be a manifestation of the plasma discharges plucking the tape like a guitar string. Presented research should help control the potentially harmful electrostatic discharges and bring us closer to a true understanding of the nature of contact electrification, noted the research team.
References: “Charge mosaics on contact-electrified dielectrics result from polarity-inverting discharges” by Yaroslav I. Sobolev, Witold Adamkiewicz, Marta Siek and Bartosz A. Grzybowski, 8 September 2022, Nature Physics.
DOI: 10.1038/s41567-022-01714-9
“Correlation between nanosecond X-ray flashes and stick-slip friction in peeling tape” by Carlos G. Camara, Juan V. Escobar, Jonathan R. Hird and Seth J. Putterman, 23 October 2008, Nature.
DOI: 10.1038/nature07378
“The mosaic of surface charge in contact electrification” by H. T. Baytekin, A. Z. Patashinski, M. Branicki, B. Baytekin, S. Soh and B. A. Grzybowski, 23 June 2011, Science.
DOI: 10.1126/science.1201512
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