Y.-J. Lin

Industrial Technology Research Institute, Hsin-chu-hsien, Taiwan, Taiwan

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Publications (2)3.54 Total impact

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    ABSTRACT: An acoustic wave based electronic nose was used to monitor the exhaled breath of patients in an intensive care unit. The system could be used for detecting and identifying bacterial infections of the lungs and airways in real-time. The patients all had ventilator assisted breathing and were diagnosed with respiratory failure due to severe pneumonia and other extrapulmonary diseases by two chest physicians. The electronic nose was based on piezoelectric quartz crystal microbalance sensors. The system used an array of 24 individual transducers each coated with a different peptide sequence ranging from 5 to 10 amino acids in length. The overall pattern response of the electronic nose to the patients’ breath was subjected to multiple discriminant analysis (MDA). The results of this were compared to data collected by conventional swab and sputum cultures taken from the same patients. Six different bacterial pathogens were identified and grouped into clusters by the MDA with 98% accuracy these were Pseudomonas aeruginosa, Acinetobacter baumannii, Klebsiella pneumoniae, Staphylococcus aureus and Acinetobacter lwoffii.
    Sensors and Actuators B Chemical 06/2010; 148(1):153. · 3.54 Impact Factor
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    P. Drake, H.-W. Chang, Y.-J. Lin
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    ABSTRACT: 4-Mercaptobenzoic acid coated gold nanoparticles were used as Raman based labels in a standard immunoassay for mouse IgG. The Au nanoparticles used had a diameter of 51 ± 2 nm and were synthesised by the citrate reduction method. Dynamic light scattering and TEM image analysis were used to characterise the nanoparticles. The SERS spectra was recorded on an EZ Raman desk-top spectrometer operating with a 670 nm laser, 22mW output and a 0.30 NA focusing lens. For the immunoassay results the Raman signal intensity was recorded at 1071 cm-1. This gave a linear correlation to the mouse IgG concentration of slope 1.5Expl3 counts per mole, giving an estimated detection limit of 0.1 femtomoles.
    IEEE Nanomed; 01/2009