Bioelectronic chip

Another requirement in certain microchips is the incorporation of electronic components, such as electrodes (see Chapter 4). So-called bioelectronic chips have been constructed that use arrays of platinum electrodes (80 im in diameter) coated with streptavidin. By modifying the charge applied to the electrodes, molecules such as DNA or RNA are differentially attracted to, or displaced from, the electrode surfaces. ... [Pg.249]

J. Zeravik, T. Ruzgas, and M. Franek, A highly sensitive flow-through amperometric immunosensor based on die peroxidase chip and enzyme-channeling principle. Biosens. Bioelectron. 18,1321—1327 (2003). [Pg.77]

K.Y. Park, M.S. Kim, and S.Y. Choi, Fabrication and characteristics of MOSFET protein chip for detection of ribosomal protein. Biosens. Bioelectron. 20, 2111-2115 (2005). [Pg.233]

M. Gabig-Ciminska, A. Holmgren, H. Andresen, K.B. Barken, M. Wumpelmann, J. Albers, R. Hintsche, A. Breitenstein, P. Neubauer, M. Los, A. Czyz, G. Wegrzyn, G. Silfversparre, B. Jurgen, T. Schweder, and S.O. Enfors, Electric chips for rapid detection and quantification of nucleic acids. Biosens. Bioelectron. 19, 537—546 (2004). [Pg.403]

Rudenko, M. I. Kuhn, S. Lunt, E. J. Deamer, D. W. Hawkins, A. R. Schmidt, H., Ultrasensitive Q > Phase Analysis Using Fluorescence Correlation Spectroscopy on an Opto fluidic Chip, Biosensors and Bioelectronics 2009, 24, 3258 3263... [Pg.512]

Matsubara, Y., Murakami, Y., Kobayashi, M., Morita, Y., and Tamiya, E. (2004). Application of on-chip cell cultures for the detection of allergic response. Biosens. Bioelectron. 19, 741-747. [Pg.39]

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R. Wilke and S. Buttgenbach, A micromachined capillary electrophoresis chip with fully integrated electrodes for separation and electrochemical detection, Biosens. Bioelectron., 19 (2003) 149-153. [Pg.867]

Blankenstein, G., Larsen, U.D., Modular concept of a laboratory on a chip for chemical and biochemical analysis. Biosens. Bioelectronics 1998, 13, 427 138. [Pg.420]

Neuschafer D, Budach W, Wanke C et al (2003) Evanescent resonator chips a universal platform with superior sensitivity for fluorescence-based microarrays. Biosens Bioelectron... [Pg.16]

Schmitt K, Schirmer B, Hoffmann C, Brandenburg A, Meyrueis P (2007) Interferometric biosensor based on planar optical waveguide sensor chips for label-lree detection of surface bound bioreactions. Biosens Bioelectron 22 2591-2597... [Pg.52]

Rudenko MI, Kiihn S, Lunt EJ, Deamer DW, Hawkins AR, Schmidt H (2009) Ultrasensitive QP Phage analysis using fluorescence correlation spectroscopy on an optofluidic chip. Biosensors and Bioelectronics 24 3258-3263... [Pg.218]

Mallard F, Marchand G, Ginot F, Campagnolo R (2005) Opto-electronic DNA chip high performance chip reading with an all-electiic interface. Biosens Bioelectron 20 1813-1820... [Pg.168]

Zhang Q, Subramanian V (2007) DNA hybridization detection with organic thin film transistors toward fast and disposable DNA microarray chips. Biosens Bioelectron 22 3182-3187... [Pg.168]

J.W. Choi, T.M. Liakopoulos, and C.H. Ahn An on-chip magnetic bead separator using spiral electromagnets with semi-encapsulated permalloy. Biosensors Bioelectronics 16, 409 16 (2001). [Pg.478]

N. N. Mishra, S. Retterer, T. J. Zieziulewicz, M. Isaacson, D. Szarowski, D. E. Mousseau, D. A. Lawrence and J. N. Tumer,On-chip micro-biosensor for the detection of human CD4(+) cells based on AC impedance and optical analysis. Biosens Bioelectron., 21, 696-704. (2005). [Pg.527]

Shi, M. H., Peng, Y. Y., Zhou, J., Liu, B. H., Huang, Y. P., Kong, J. L. Immunoassays based on microelectrodes arrayed on a silicon chip for high throughput screening of liver fibrosis markers in human serum, Biosens. Bioelectron., 21(12), 2210-2216... [Pg.309]

Corgier BP, Marquette CA, Blum LJ. Direct electrochemical addressing of immunoglobulins immuno-chip on screen-printed microarray. Biosens Bioelectron 2007 22 1522-6. [Pg.354]

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Lorenzelli, L., Benvenuto, A., Adami, A. et al. (2005) Development of a gas chromatography silicon-based microsystem in clinical diagnostics. Biosens Bioelectron, 20 (10), 1968-1976. Zampolli, S., Ehni, I., Stiirmann J. et al. (2005) Selectivity enhancement of metal oxide gas sensors using a micromachined gas chromatographic column. Sens Actual B, 105 (2), 400-406. Bessoth, F.G., Naji, O.P., Eijkel, J.C.T. and Manz, A. (2002) Towards an on-chip gas chromatograph the development of a gas injector and a dc plasma emission detector. J Anal Atom Spectrom, 17 (8), 794-799. [Pg.279]

Townsend S., Finlay W. J. J., Hearty S., and O Kennedy R., Optimizing recombinant antibody function in SPR immunosensing the influence of antibody structural format and chip surface chemistry on assay sensitivity. Biosens. Bioelectron., 22(2), 268-274, 2006. [Pg.230]

Kurita, R., et al.. Miniaturized one-chip electrochemical sensing device integrated with a dialysis membrane and double thin-layer flow channels for measuring blood samples. Biosens. Bioelectron., 21, 1649, 2006. [Pg.1340]

Hsieh, Y.-C. and Zahn, J. D., On-chip microdialysis system with flow-throngh sensing components. Biosens. Bioelectron., 22, 2422-2428, 2007. [Pg.1340]

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