A Simple Bio-Chip Utilizing Electrokinetics-Enhanced Nanocolloid Conjugation for the Rapid Identification of Microorganism

碩士 === 崑山科技大學 === 電腦與通訊研究所 === 104 === Dielectrophoresis (DEP) has been widely used to manipulate, separate, and concentrate microscale particles. Unfortunately, DEP force is difficult to be used in regard to the manipulation of nanoscale molecules/particles. For manipulation of 50 to 100-nm particl...

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Bibliographic Details
Main Authors: Jung-Chi, Lu, 呂榮吉
Other Authors: Hung-Wei, Wu
Format: Others
Language:en_US
Published: 2016
Online Access:http://ndltd.ncl.edu.tw/handle/55042920301472101878
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Summary:碩士 === 崑山科技大學 === 電腦與通訊研究所 === 104 === Dielectrophoresis (DEP) has been widely used to manipulate, separate, and concentrate microscale particles. Unfortunately, DEP force is difficult to be used in regard to the manipulation of nanoscale molecules/particles. For manipulation of 50 to 100-nm particles, the electrical field strength must be higher than 3 × 106 V/m, and with a low applied voltage of 10 Vp-p, the electrode gap needs to be reduced to submicrons. Our research consists of a novel and simple approach, using a several tens micrometers scale electrode (low cost and easy to fabricate) to generate a dielectrophoretic microparticle assembly to form nanogaps with a locally amplified alternating current (AC) electric field gradient, which is used to rapidly trap nanocolloids. The results show that the amplified DEP force could effectively trap 20-nm colloids in the nanogaps between the 5-μm particle aggregates. The concentration factor at the local detection region was shown to be approximately 5 orders of magnitude higher than the bulk solution. This approach was also successfully used in bead-based surface-enhanced Raman spectroscopy (SERS) for the rapid identification of bacteria from diluted blood.