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1188252 
Journal Article 
Development of a chemical vapor sensor using piezoelectric quartz crystals with coated unusual lipids 
Yano, K; Yoshitake, H; Bornscheuer, UT; Schmid, RD; Ikebukuro, K; Yokoyama, K; Masuda, Y; Karube, I 
1997 
Yes 
Analytica Chimica Acta
ISSN: 0003-2670
EISSN: 1873-4324 
340 
1-3 
41-48 
English 
WOS:A1997WR15800005 
Piezoelectric quartz crystal sensors were developed using lipids with various properties for highly sensitive detection of chemical vapors. Lipids with varying lengths of alkyl chains were coated onto 10 MHz AT-cut quartz crystal resonators and the response of these modified crystals to chemical vapors were measured. It was shown that hydrophilic compounds, such as ethanol and methanol, could be recognized efficiently by lipids having shorter alkyl chains, whereas lipids with longer alkyl chains showed affinity to more hydrophobic vapors, such as toluene, hexane and cyclohexane. Frequency changes caused by adsorption of alcohols could be enhanced when cholesterol was co-immobilized in the lipid layer. To confirm the assumption that the sensor-response might be affected by the properties of lipids derived from acyl chains, we have examined the effects of two types of newly synthesized unusual lipids on sensor response. When lipids having one triple bond each at different positions on their alkyl chains were coated onto quartz crystals separately, lower responses were observed compared to responses obtained for a sensor with immobilized, saturated phosphatidylcholine. Lipids containing a-branched acyl chains, however, showed good affinity for organic vapors, and sensor responses improved 4-5-fold. Moreover, these sensors were shown to have sensitivity of the same order as the humans' sense of smell (10-5-10-6 w/w in liquid paraffin) when measured using standard odorants (isovaleric acid, skatole, etc.) for an olfactometry established in Japan. 
sensors; piezoelectric quartz crystal; artificial lipids; olfactometry; phospholipids 
IRIS
• Methanol (Non-Cancer)
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