Zobrazeno 1 - 5
of 5
pro vyhledávání: '"Robert W, Haigis"'
Autor:
Robert W. Haigis, Bob Martinsons, Donald S. Thomas, Ying Huang, Paul D. Swanson, Janice Bell, Anita H. Forster, Marcus Tirado, Michael Krihak, Joon Mo Yang, R. Bruce Wallace
Publikováno v:
Biosensors and Bioelectronics. 17:605-618
An integrated, stacked microlaboratory for performing automated electric-field-driven immunoassays and DNA hybridization assays was developed. The stacked microlaboratory was fabricated by orderly laminating several different functional layers (all 7
Autor:
Thomas J. Onofrey, Bruce Wallace, Neema Jamshidi, Ron Sosnowski, C. Gurtner, Carl F. Edman, Robert W. Haigis, Eugene Tu, Michael J. Heller
Publikováno v:
ELECTROPHORESIS. 23:1543-1550
A variety of electronic DNA array devices and techniques have been developed that allow electric field enhanced hybridization to be carried out under special low-conductance conditions. These devices include both planar microelectronic DNA array/chip
Autor:
Christian, Gurtner, Eugene, Tu, Neema, Jamshidi, Robert W, Haigis, Thomas J, Onofrey, Carl F, Edman, Ron, Sosnowski, Bruce, Wallace, Michael J, Heller
Publikováno v:
Electrophoresis. 23(10)
A variety of electronic DNA array devices and techniques have been developed that allow electric field enhanced hybridization to be carried out under special low-conductance conditions. These devices include both planar microelectronic DNA array/chip
Autor:
Michael Krihak, Donald E. Ackley, Karla L. Ewalt, Michael J. Heller, Anita H. Forster, Marcus Tirado, Ying Huang, Robert W. Haigis, James P. O'Connell
Publikováno v:
Analytical chemistry. 73(7)
Bioparticle separation, bioparticle enrichment, and electric field-mediated immune detection were carried out on microfabricated semiconductor chips utilizing ac and dc electric fields. Microscale separation on a chip surface having an active area of
Publikováno v:
Analytical biochemistry. 289(2)
An electric-field-driven assay for fluorescein-labeled staphylococcal enterotoxin B and cholera toxin B was developed on an active electronic microchip. An array of microlocations was transformed into an immunoassay array by electronically biasing el