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January 16, 2023

Blocking radio waves and electromagnetic interference with the flip
of a switch

by Drexel University

Blocking radio waves and electromagnetic interference with the flip
of a switch MXene electrodes used in this work. a, Schematics of
MXene with different numbers of atomic layers. Optical images of (b)
V[2]CT[x], (c) Ti[2]CT[x], (d) Ti[3]C[2]T[x], (e) V[4]C[3]T[x], and
(f) Nb[4]C[3]T[x]. Scale bar, 20 mm. Credit: Nature Nanotechnology
(2023). DOI: 10.1038/s41565-022-01308-9

Researchers in Drexel University's College of Engineering have
developed a thin film device, fabricated by spray coating, that can
block electromagnetic radiation with the flip of a switch. The
breakthrough, enabled by versatile two-dimensional materials called
MXenes, could adjust the performance of electronic devices,
strengthen wireless connections and secure mobile communications
against intrusion.

The team, led by Yury Gogotsi, Ph.D., Distinguished University and
Bach professor in Drexel's College of Engineering, previously
demonstrated that the two-dimensional layered MXene materials,
discovered just over a decade ago, when combined with an electrolyte
solution, can be turned into a potent active shield against
electromagnetic waves.

This latest MXene discovery, reported in Nature Nanotechnology, shows
how this shielding can be tuned when a small voltage--less than that
produced by an alkaline battery--is applied.

"Dynamic control of electromagnetic wave jamming has been a
significant technological challenge for protecting electronic devices
working at gigahertz frequencies and a variety of other
communications technologies," Gogotsi said.

"As the number of wireless devices being used in industrial and
private sectors has increased by orders of magnitude over the past
decade, the urgency of this challenge has grown accordingly. This is
why our discovery--which would dynamically mitigate the effect of
electromagnetic interference on these devices--could have a broad
impact."
Active EMI shielding change of the V[2]CT[x] film. Credit: Nature
Nanotechnology (2023). DOI: 10.1038/s41565-022-01308-9

MXene is a unique material in that it is highly conductive--making it
perfectly suited for reflecting microwave radiation that could cause
static, feedback or diminish the performance of communications
devices--but its internal chemical structure can also be temporarily
altered to allow these electromagnetic waves to pass through.

This means that a thin coating on a device or electrical components
prevents them from both emitting electromagnetic waves, as well as
being penetrated by those emitted by other electronics. Eliminating
the possibility of interference from both internal and external
sources can ensure the performance of the device, but some waves must
be allowed to exit and enter when it is being used for communication.

"Without being able to control the ebb and flow of electromagnetic
waves within and around a device, it's a bit like a leaky
faucet--you're not really turning off the water and that constant
dripping is no good," Gogotsi said. "Our shielding ensures the
plumbing is tight--so-to-speak--no electromagnetic radiation is leaking
out or getting in until we want to use the device."

The key to eliciting bidirectional tunability of MXene's shielding
property is using the flow and expulsion of ions to alternately
expand and compress the space between material's layers, like an
accordion, as well as to change the surface chemistry of MXenes.

With a small voltage applied to the film, ions enter--or
intercalate--between the MXene layers altering the charge of their
surface and inducing electrostatic attraction, which serves to change
the layer spacing, the conductivity and shielding efficiency of the
material. When the ions are deintercalated, as the current is
switched off, the MXene layers return to their original state.

The team tested 10 different MXene-electrolyte combinations, applying
each via paint sprayer in a layer about 30 to 100 times thinner than
a human hair. The materials consistently demonstrated the dynamic
tunability of shielding efficiency in blocking microwave radiation,
which is impossible for traditional metals like copper and steel. And
the device sustained the performance through more than 500
charge-discharge cycles.

"These results indicate that the MXene films can convert from
electromagnetic interference shielding to quasi-electromagnetic wave
transmission by electrochemical oxidation of MXenes," Gogotsi and his
co-authors wrote. "The MXene film can potentially serve as a dynamic
EMI shielding switch."

For security applications, Gogotsi suggests that the MXene shielding
could hide devices from detection by radar or other tracing systems.
The team also tested the potential of a one-way shielding switch.
This would allow a device to remain undetectable and protected from
unauthorized access until it is deployed for use.

"A one-way switch could open the protection and allow a signal to be
sent or communication to be opened in an emergency or at the required
moment," Gogotsi said. "This means it could protect communications
equipment from being influenced or tampered with until it is in use.
For example, it could encase the device during transportation or
storage and then activate only when it is ready to be used."

The next step for Gogotsi's team is to explore additional
MXene-electrolyte combinations and mechanisms to fine-tune the
shielding to achieve a stronger modulation of electromagnetic wave
transmission and dynamic adjustment to block radiation at a variety
of bandwidths.

More information: Yury Gogotsi, Electrochemically modulated
interaction of MXenes with microwaves, Nature Nanotechnology (2023).
DOI: 10.1038/s41565-022-01308-9. www.nature.com/articles/
s41565-022-01308-9

Journal information: Nature Nanotechnology  

Provided by Drexel University  

Citation: Blocking radio waves and electromagnetic interference with
the flip of a switch (2023, January 16) retrieved 19 January 2023
from https://phys.org/news/
2023-01-blocking-radio-electromagnetic-flip.html
This document is subject to copyright. Apart from any fair dealing
for the purpose of private study or research, no part may be
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