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Results: 1-15 |
Results: 15
Electronic transduction of polymerase or reverse transcriptase induced replication processes on surfaces: Highly sensitive and specific detection of viral genomes
Authors: Patolsky, F Lichtenstein, A Kotler, M Willner, I
Citation: F. Patolsky et al., Electronic transduction of polymerase or reverse transcriptase induced replication processes on surfaces: Highly sensitive and specific detection of viral genomes, ANGEW CHEM, 40(12), 2001, pp. 2261
Photoelectrochemistry with controlled DNA-cross-linked CdS nanoparticle arrays
Authors: Willner, I Patolsky, F Wasserman, J
Citation: I. Willner et al., Photoelectrochemistry with controlled DNA-cross-linked CdS nanoparticle arrays, ANGEW CHEM, 40(10), 2001, pp. 1861-1864
Detection of single-base DNA mutations by enzyme-amplified electronic transduction
Authors: Patolsky, F Lichtenstein, A Willner, I
Citation: F. Patolsky et al., Detection of single-base DNA mutations by enzyme-amplified electronic transduction, NAT BIOTECH, 19(3), 2001, pp. 253-257
Probing of DNA and single-base mismatches by chemical force microscopy using peptide nucleic acid-modified sensing tips and functionalized surfaces
Authors: Lioubashevski, O Patolsky, F Willner, I
Citation: O. Lioubashevski et al., Probing of DNA and single-base mismatches by chemical force microscopy using peptide nucleic acid-modified sensing tips and functionalized surfaces, LANGMUIR, 17(17), 2001, pp. 5134-5136
Amplified detection of DNA and analysis of single-base mismatches by the catalyzed deposition of gold on Au-nanoparticles
Authors: Weizmann, Y Patolsky, F Willner, I
Citation: Y. Weizmann et al., Amplified detection of DNA and analysis of single-base mismatches by the catalyzed deposition of gold on Au-nanoparticles, ANALYST, 126(9), 2001, pp. 1502-1504
Electronic transduction of DNA sensing processes on surfaces: Amplification of DNA detection and analysis of single-base mismatches by tagged liposomes
Authors: Patolsky, F Lichtenstein, A Willner, I
Citation: F. Patolsky et al., Electronic transduction of DNA sensing processes on surfaces: Amplification of DNA detection and analysis of single-base mismatches by tagged liposomes, J AM CHEM S, 123(22), 2001, pp. 5194-5205
Electrochemical transduction of liposome-amplified DNA sensing
Authors: Patolsky, F Lichtenstein, A Willner, I
Citation: F. Patolsky et al., Electrochemical transduction of liposome-amplified DNA sensing, ANGEW CHEM, 39(5), 2000, pp. 940
Dendritic amplification of DNA analysis by oligonucleotide-functionalized Au-nanoparticles
Authors: Patolsky, F Ranjit, KT Lichtenstein, A Willner, I
Citation: F. Patolsky et al., Dendritic amplification of DNA analysis by oligonucleotide-functionalized Au-nanoparticles, CHEM COMMUN, (12), 2000, pp. 1025-1026
Amplified microgravimetric quartz-crystal-microbalance assay of DNA using oligonucleotide-functionalized liposomes or biotinylated liposomes
Authors: Patolsky, F Lichtenstein, A Willner, I
Citation: F. Patolsky et al., Amplified microgravimetric quartz-crystal-microbalance assay of DNA using oligonucleotide-functionalized liposomes or biotinylated liposomes, J AM CHEM S, 122(2), 2000, pp. 418-419
Controlled electrocatalysis by microperoxidase-11 and Au-nanoparticle superstructures on conductive supports
Authors: Patolsky, F Gabriel, T Willner, I
Citation: F. Patolsky et al., Controlled electrocatalysis by microperoxidase-11 and Au-nanoparticle superstructures on conductive supports, J ELEC CHEM, 479(1), 1999, pp. 69-73
Sensing and amplification of oligonucleotide-DNA interactions by means of impedance spectroscopy: a route to a Tay-Sachs sensor
Authors: Bardea, A Patolsky, F Dagan, A Willner, I
Citation: A. Bardea et al., Sensing and amplification of oligonucleotide-DNA interactions by means of impedance spectroscopy: a route to a Tay-Sachs sensor, CHEM COMMUN, (1), 1999, pp. 21-22
Enzyme-linked amplified electrochemical sensing of oligonucleotide-DNA interactions by means of the precipitation of an insoluble product and using impedance spectroscopy
Authors: Patolsky, F Katz, E Bardea, A Willner, I
Citation: F. Patolsky et al., Enzyme-linked amplified electrochemical sensing of oligonucleotide-DNA interactions by means of the precipitation of an insoluble product and using impedance spectroscopy, LANGMUIR, 15(11), 1999, pp. 3703-3706
Precipitation of an insoluble product on enzyme monolayer electrodes for biosensor applications: Characterization by faradaic impedance spectroscopy,cyclic voltammetry, and microgravimetric quartz crystal microbalance analyses
Authors: Patolsky, F Zayats, M Katz, E Willner, I
Citation: F. Patolsky et al., Precipitation of an insoluble product on enzyme monolayer electrodes for biosensor applications: Characterization by faradaic impedance spectroscopy,cyclic voltammetry, and microgravimetric quartz crystal microbalance analyses, ANALYT CHEM, 71(15), 1999, pp. 3171-3180
Photochemical imprint of molecular recognition sites in monolayers assembled on Au electrodes
Authors: Lahav, M Katz, E Doron, A Patolsky, F Willner, I
Citation: M. Lahav et al., Photochemical imprint of molecular recognition sites in monolayers assembled on Au electrodes, J AM CHEM S, 121(4), 1999, pp. 862-863
Photoswitchable antigen-antibody interactions studied by impedance spectroscopy
Authors: Patolsky, F Filanovsky, B Katz, E Willner, I
Citation: F. Patolsky et al., Photoswitchable antigen-antibody interactions studied by impedance spectroscopy, J PHYS CH B, 102(50), 1998, pp. 10359-10367
Risultati: 1-15 |