Size Distribution of Magnetic Marker Estimated from AC Susceptibility in Solution for Biosensor Application
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概要
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The ac susceptibility of magnetic markers in solution was studied for biosensor application, where the marker consisted of magnetic nanoparticles and a coating material. From the frequency dependence of the susceptibility caused by the Brownian rotation of the marker, we estimated the distribution of marker size, which is an important parameter for biosensor application. For this purpose, we analyzed the experimental data by the singular value decomposition (SVD) method. Using this method, we can directly estimate the size distribution without assuming any distribution function. The estimated distributions were also compared with those obtained from optical dynamic light scattering (DLS) measurements. It was shown that the size distribution estimated by magnetic measurement (SVD) slightly shifts to a size lower than that estimated by the optical measurement (DLS). It was also shown that the frequency dependence of the susceptibility can be better explained by the size distribution estimated by the SVD method than by the distribution estimated with DLS. The difference between the magnetic and optical measurement results was discussed in terms of aggregation of the markers.
- 2008-10-25
著者
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Enpuku Keiji
Research Institute Of Superconductor Science And Systems Kyushu University
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TANAKA Tsuyoshi
Research Center for Integrated Systems, Hiroshima University
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Tamai Yuya
Research Institute Of Superconductor Science And Systems Kyushu University
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Enomoto Naoya
Department Of Applied Chemistry Faculty Of Engineering Kyushu University
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Dang Feng
Department Of Applied Chemistry Faculty Of Engineering Kyushu University
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Hojo Junichi
Department Chemistry & Biochemistry, Graduate School of Engineering, Kyushu University
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Enpuku Keiji
Research Institute of Superconductor Science and Systems, Kyushu University, Fukuoka 819-0395, Japan
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Kanzaki Hisao
Research and Development Division, Hitachi Maxell Ltd., Kyoto 618-8525, Japan
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Usuki Naoki
Research and Development Division, Hitachi Maxell Ltd., Kyoto 618-8525, Japan
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Tamai Yuya
Research Institute of Superconductor Science and Systems, Kyushu University, Fukuoka 819-0395, Japan
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