Motion-driven sensing and biosensing using electrochemically propelled nanomotors.
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S. Campuzano | D. Kagan | J. Orozco | J. Wang | D. Kagan | S. Campuzano | J. Orozco | J. Wang | Daniel Kagan | Jahir Orozco | Susana Campuzano | Joseph Wang
[1] Chad A Mirkin,et al. Nanostructures in biodiagnostics. , 2005, Chemical reviews.
[2] Geoffrey A Ozin,et al. Nanolocomotion - catalytic nanomotors and nanorotors. , 2010, Small.
[3] Chad A Mirkin,et al. A bio-bar-code assay based upon dithiothreitol-induced oligonucleotide release. , 2005, Analytical chemistry.
[4] Joseph Wang. Nanomaterial-based amplified transduction of biomolecular interactions. , 2005, Small.
[5] T. Mallouk,et al. Bipolar electrochemical mechanism for the propulsion of catalytic nanomotors in hydrogen peroxide solutions. , 2006, Langmuir : the ACS journal of surfaces and colloids.
[6] Yang Wang,et al. Catalytically induced electrokinetics for motors and micropumps. , 2006, Journal of the American Chemical Society.
[7] Chad A Mirkin,et al. Bio-bar-code-based DNA detection with PCR-like sensitivity. , 2004, Journal of the American Chemical Society.
[8] Joseph Wang,et al. Can man-made nanomachines compete with nature biomotors? , 2009, ACS nano.
[9] Walter F Paxton,et al. Catalytic nanomotors: remote-controlled autonomous movement of striped metallic nanorods. , 2005, Angewandte Chemie.
[10] O. Schmidt,et al. Catalytic microtubular jet engines self-propelled by accumulated gas bubbles. , 2009, Small.
[11] Joseph Wang,et al. Carbon-nanotube-induced acceleration of catalytic nanomotors. , 2008, ACS nano.
[12] Ashutosh Agarwal,et al. A smart dust biosensor powered by kinesin motors. , 2009, Nature nanotechnology.
[13] Hubert Perrot,et al. Building of an immunosensor: how can the composition and structure of the thiol attachment layer affect the immunosensor efficiency? , 2006, Biosensors & bioelectronics.
[14] Ivo Safarik,et al. Magnetic techniques for the isolation and purification of proteins and peptides , 2004, Biomagnetic research and technology.
[15] O. Schmidt,et al. Microbots swimming in the flowing streams of microfluidic channels. , 2011, Journal of the American Chemical Society.
[16] Oliver G. Schmidt,et al. Versatile Approach for Integrative and Functionalized Tubes by Strain Engineering of Nanomembranes on Polymers , 2008 .
[17] Filiz Kuralay,et al. Functionalized micromachines for selective and rapid isolation of nucleic acid targets from complex samples. , 2011, Nano letters.
[18] Chad A Mirkin,et al. Nonenzymatic detection of bacterial genomic DNA using the bio bar code assay. , 2007, Analytical chemistry.
[19] Miki Hirabayashi,et al. Malachite green‐conjugated microtubules as mobile bioprobes selective for malachite green aptamers with capturing/releasing ability , 2006, Biotechnology and bioengineering.
[20] Sirilak Sattayasamitsathit,et al. Highly efficient catalytic microengines: template electrosynthesis of polyaniline/platinum microtubes. , 2011, Journal of the American Chemical Society.
[21] Sirilak Sattayasamitsathit,et al. Rapid delivery of drug carriers propelled and navigated by catalytic nanoshuttles. , 2010, Small.
[22] Susana Campuzano,et al. Micromachine-enabled capture and isolation of cancer cells in complex media. , 2011, Angewandte Chemie.
[23] Yanyan Cao,et al. Catalytic nanomotors: autonomous movement of striped nanorods. , 2004, Journal of the American Chemical Society.
[24] Joseph Wang,et al. Motion control at the nanoscale. , 2010, Small.
[25] N. Fiala. The greenhouse hamburger. , 2009, Scientific American.
[26] Susana Campuzano,et al. Ternary surface monolayers for ultrasensitive (zeptomole) amperometric detection of nucleic acid hybridization without signal amplification. , 2010, Analytical chemistry.
[27] A. Steel,et al. Electrochemical quantitation of DNA immobilized on gold. , 1998, Analytical chemistry.
[28] Oliver G. Schmidt,et al. Rolled-up nanotech on polymers: from basic perception to self-propelled catalytic microengines. , 2011, Chemical Society reviews.
[29] C. Mirkin,et al. Nanoparticle-Based Bio-Bar Codes for the Ultrasensitive Detection of Proteins , 2003, Science.
[30] S. Balasubramanian,et al. Chemical sensing based on catalytic nanomotors: motion-based detection of trace silver. , 2009, Journal of the American Chemical Society.
[31] Paul I. Okagbare,et al. Highly efficient circulating tumor cell isolation from whole blood and label-free enumeration using polymer-based microfluidics with an integrated conductivity sensor. , 2008, Journal of the American Chemical Society.
[32] Kalayil Manian Manesh,et al. Ultrafast catalytic alloy nanomotors. , 2008, Angewandte Chemie.
[33] Viola Vogel,et al. Molecular shuttles powered by motor proteins: loading and unloading stations for nanocargo integrated into one device. , 2010, Lab on a chip.
[34] S. Balasubramanian,et al. Template-assisted fabrication of salt-independent catalytic tubular microengines. , 2010, ACS nano.
[35] Jonathan D Posner,et al. Synthetic nanomotors in microchannel networks: directional microchip motion and controlled manipulation of cargo. , 2008, Journal of the American Chemical Society.
[36] Shankar Balasubramanian,et al. Chemically triggered swarming of gold microparticles. , 2011, Angewandte Chemie.
[37] Tai Kubo,et al. Selective detection and transport of fully matched DNA by DNA-loaded microtubule and kinesin motor protein. , 2006, Biotechnology and Bioengineering.
[38] Ronald D Vale,et al. The Molecular Motor Toolbox for Intracellular Transport , 2003, Cell.
[39] S. Balasubramanian,et al. Motion-based DNA detection using catalytic nanomotors. , 2010, Nature communications.
[40] Thomas E Mallouk,et al. Schooling behavior of light-powered autonomous micromotors in water. , 2009, Angewandte Chemie.
[41] S. Satija,et al. Using Self-Assembly To Control the Structure of DNA Monolayers on Gold: A Neutron Reflectivity Study , 1998 .
[42] Tatsuya Suda,et al. Autonomous loading, transport, and unloading of specified cargoes by using DNA hybridization and biological motor-based motility. , 2008, Small.
[43] Cees Dekker,et al. Motor Proteins at Work for Nanotechnology , 2007, Science.
[44] Jerome P Ferrance,et al. Characterization of dynamic solid phase DNA extraction from blood with magnetically controlled silica beads. , 2010, The Analyst.
[45] R. Franke,et al. Inside Cover: A General and Efficient Iridium‐Catalyzed Hydroformylation of Olefins (Angew. Chem. Int. Ed. 1/2011) , 2011 .
[46] Samuel Sanchez,et al. Controlled manipulation of multiple cells using catalytic microbots. , 2011, Chemical communications.