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August 12, 2011

Devices Reveal Hidden Messages

Materials Science: Sensors’ response to surface tension can also differentiate liquids

Celia Henry Arnaud

Dual Use: Devices made from 3-D photonic crystals reveal messages according to the composition of a decoding liquid (left panel) and distinguish among solvents used in clean rooms. J. Am. Chem. Soc.
Dual Use Devices made from 3-D photonic crystals reveal messages according to the composition of a decoding liquid (left panel) and distinguish among solvents used in clean rooms.
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The work is a collaboration between the Laboratory for Nanoscale Optics and the Aizenberg Biomineralization and Biomimetics Lab at Harvard.

Ian Burgess
These chips contain two levels of encryption. When swabbed with water, the chips display the decoy message "omega, delta, pi, 507." Swabbing the upper chip with 77% ethanol and the lower chip with 100% ethanol reveals the true message "MAT SCI."
Ian Burgess
The revealed message depends on the liquid used to swab the chip. 90% ethanol displays "PI" and 50% ethanol uncovers "PINK."
Ian Burgess
Three different Roman numerals appear, depending on the liquid used—100% ethanol, 90% ethanol, and 50% ethanol.

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A new type of device that responds to a liquid’s surface tension can be used to reveal hidden messages or to distinguish among different classes of liquids, Harvard University scientists report (J. Am. Chem. Soc., DOI: 10.1021/ja2053013).

The devices provide “a cheap, fast, portable way to perform quality-control tests and diagnose different liquids,” says team leader Joanna Aizenberg, a materials science professor.

They are like “litmus paper for surface tension,” says engineering grad student Ian B. Burgess. “The nice thing about surface tension as opposed to pH is that all liquids have a surface tension,” whereas pH characterizes only aqueous solutions.

To make the surface-tension sensors, the team exposes defect-free, crack-free photonic crystals with uniform pores to an alkylchlorosilane vapor, functionalizing the inner surfaces. They protect the device with a mask and use oxygen plasma etching to erase the surface chemistry from all unprotected areas. They then expose the device to additional rounds of other alkylchlorosilane vapors and plasma etching until the device has the desired pattern of surface chemistry.

The chemistry dictates the extent to which liquids with different surface tensions can wet particular regions of the device. Testing can be done either by immersing the device in a liquid or by swiping a wet cloth across the device. Any part of the pattern that isn’t covered by the liquid then becomes visible.

The Harvard researchers designed one device with the message W-INK. When they immersed the device in 100%, 85%, 78%, or 50% ethanol, different parts of the message were revealed. “We can even distinguish between the same liquid with small differences in concentration,” Aizenberg says.

Another device distinguishes among solvents commonly found in clean rooms. “You could use this to identify an unknown beaker of liquid and then dispose of it properly,” Burgess says. For example, isopropyl alcohol, acetone, and water reveal different numbers of bars on the device. Such a test could be useful for organic solvents for which simple field tests are not available.

The new devices “have potential for authentication and anticounterfeiting applications,” says Sanford A. Asher, a chemistry professor at the University of Pittsburgh who also develops photonic sensors.

Chemical & Engineering News
ISSN 0009-2347
Copyright © 2011 American Chemical Society
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These chips contain two levels of encryption. When swabbed with water, the chips display the decoy message "omega, delta, pi, 507." Swabbing the upper chip with 77% ethanol and the lower chip with 100% ethanol reveals the true message "MAT SCI."

The work is a collaboration between the Laboratory for Nanoscale Optics and the Aizenberg Biomineralization and Biomimetics Lab at Harvard.

Ian Burgess

The revealed message depends on the liquid used to swab the chip. 90% ethanol displays "PI" and 50% ethanol uncovers "PINK."

The work is a collaboration between the Laboratory for Nanoscale Optics and the Aizenberg Biomineralization and Biomimetics Lab at Harvard.

Ian Burgess

Three different Roman numerals appear, depending on the liquid used—100% ethanol, 90% ethanol, and 50% ethanol.

The work is a collaboration between the Laboratory for Nanoscale Optics and the Aizenberg Biomineralization and Biomimetics Lab at Harvard.

Ian Burgess
Chemical & Engineering News
ISSN 0009-2347
Copyright © 2011 American Chemical Society
  • Print this article
  • Email the editor

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