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Colorimetric Sensor

  • Kenneth S. Suslick
Published/Copyright: September 13, 2016
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Chemistry International
From the journal Chemistry International Volume 38 Issue 5

The Suslick Research Group at the University of Illinois Urbana-Champaign created an extremely sensitive and portable “optoelectronic nose” used in the detection of toxic gases and other substances [1-4]. It is also developing cumulative colorimetric sensor arrays which are inexpensive, and cross-reactive, using a wide range of chemical interactions with analytes (i.e., not just physical adsorption): an optical analog of mammalian olfaction. A composite response to volatiles in the environment can be measured quantitatively by digitally monitoring the change in color of each spot on an easily printed array (Fig. 1). These new colorimetric sensor arrays are 100s of times more sensitive than conventional passive monitoring diffusion tubes. The use of a disposable array permits the use of stronger chemical interactions, which dramatically improves both sensitivity and specificity compared to any prior e-nose technology. Importantly the sensor array has been specifically engineering to be insensitive to humidity changes. The sensor array has been successfully used for detection of toxic gases at ppb levels, for identification of cultured pathogenic bacteria (and their antibiotic resistance), and for discovery of explosives including peroxide based compounds such as TATP (triacetone triperoxide, the explosive used in the recent terrorist bombings in Paris and Brussels).

A compact reader (the size of a double-deck of cards) for these arrays is available for active sensing and uses a color contact image sensor (a line imaging unit used for portable business card and paper scanners). In addition, cell phone camera imaging was used to monitor artwork after passive exposure in situ during a Disney Animation Research Library exhibition, “Drawn from Life: the Art of Disney Animation Studios”, in Beijing. Sensor arrays monitoring pollutant exposure were placed in the exterior and interior environments of passe partout frames during the course of the exhibition and inside shipping crates during transport (Fig. 2). This work, a collaboration between the Getty Conservation Institute (GCI) and the University of Illinois, was previously supported by a National Science Foundation grant.

Fig. 1. Color difference maps of the colorimetric sensor array are “molecular fingerprints” and quantitatively identify pollutants, even at part per billion concentrations.

Fig. 2. Placement of colorimetric sensor arrays on the back side of passe partout frames for the 2015 “Drawn from Life”, the first traveling exhibit from the Walt Disney Corp. to China; artwork © Disney.

References

1. Rakow, N. A.; Suslick, K. S. “A Colorimetric Sensor Array for Odor Visualization” Nature, 2000, 406: 710-714. 10.1038/35021028Search in Google Scholar PubMed

2. Lim, S. H.; Feng, L.; Kemling, J. W.; Musto, C. J.; Suslick, K. S. “An Optoelectronic Nose for Detection of Toxic Gases” Nature Chemistry, 2009, 1:562-567. 10.1038/nchem.360Search in Google Scholar PubMed PubMed Central

3. Askim, J. R.; Li, Z.; LaGasse, M. K.; Rankin, J. M.; Suslick, K. S. “An optoelectronic nose for identification of explosives” Chem. Sci., 2016, 7:199-206. 10.1039/C5SC02632FSearch in Google Scholar PubMed PubMed Central

4. Askim, J. R.; Mahmoudi, M.; Suslick, K. S. “Optical sensor arrays for chemical sensing: the optoelectronic nose” Chem. Soc. Rev. 2013, 42:8649 - 8682.10.1039/c3cs60179jSearch in Google Scholar PubMed

Online erschienen: 2016-9-13
Erschienen im Druck: 2016-9-1

©2016 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.1515/ci-2016-0505

Articles in the same Issue

  1. Masthead - Full issue pdf
  2. Contents
  3. Features
  4. The Art of Building Small
  5. Chemistry for the Future Solvay Prize
  6. CAMEO: The Science in Art
  7. Colorimetric Sensor
  8. The Discovery of Phytochrome
  9. Stamps International
  10. Raman’s Gift to the Art World
  11. IUPAC Wire
  12. Kicking off the Preparations for the IUPAC Centenary
  13. IUPAC Elections for the 2018–2019 Term
  14. IUPAC Announces the Winners of the 2016 IUPAC-Solvay International Award for Young Chemists
  15. Volker Hessel Is Awarded the 2016 IUPAC ThalesNano Prize for Flow Chemistry
  16. Dan Kunkel to Receive the IUPAC International Award for Advances in Crop Protection Chemistry
  17. Ali Maleki Is Awarded the 2016 IUPAC-CHEMRAWN VII Prize for Green Chemistry
  18. 2016 Andrei Sakharov Prize Awarded to Zafra Lerman
  19. In Memoriam—Paul De Bièvre
  20. Project Place
  21. Guide (and Brief Guide) to Polymer Semiconductors
  22. Critical Evaluation of Equilibrium Constants of 4f Metal Mixed Complexes with Acidic (Chelating) Ligands in Combination with Various Organophosphorus O-donor Molecules
  23. Network for Heterocyclic Chemistry among Countries of the Mediterranean Sea Area, Including Europe and North Africa
  24. Nomenclature for Properties and Units or NPU Terminology
  25. Making an imPACt
  26. Human Errors in a Routine Analytical Laboratory—Classification, Modeling and Quantification: Overview of the IUPAC/CITAC Guide*
  27. IUPAC Provisional Recommendations
  28. Names and Symbols of the Elements With Atomic Numbers 113, 115, 117, and 118
  29. Preferred Names of Constitutional Units for Use in Structure-based Names of Polymers
  30. Conference Call
  31. Ecological Risk Assessment Workshop
  32. ChemCYS 2016. An Inspiring and Stimulating Conference for Young Chemists Worldwide
  33. Photochemistry
  34. Research and Education in the Middle East
  35. Gender Issues in Field Research
  36. Mark Your Calendar
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