James P. Landers spends much of his time researching Chromatography, Microfluidics, Capillary electrophoresis, DNA extraction and Electrophoresis. James P. Landers combines subjects such as DNA and Analytical chemistry with his study of Chromatography. The various areas that James P. Landers examines in his DNA study include Molecular biology and Amplicon.
His Microfluidics study is concerned with the field of Nanotechnology as a whole. His work deals with themes such as Capillary action, Detection limit, Fluorescence, Analyte and Gel electrophoresis, which intersect with Capillary electrophoresis. His DNA extraction study combines topics from a wide range of disciplines, such as Sperm and Nucleic acid methods.
James P. Landers focuses on Chromatography, Microfluidics, Capillary electrophoresis, Electrophoresis and Nanotechnology. His study looks at the intersection of Chromatography and topics like DNA with Molecular biology. His study in Microfluidics is interdisciplinary in nature, drawing from both DNA extraction, Polymerase chain reaction, Fluidics, Optoelectronics and Biomedical engineering.
The DNA extraction study combines topics in areas such as Sperm, Amplicon and Differential extraction. His Capillary electrophoresis study integrates concerns from other disciplines, such as Detection limit, Biochemistry, Gel electrophoresis, Fluorescence and Analyte. He has researched Extraction in several fields, including Sample preparation, Nucleic acid and Elution.
James P. Landers mainly focuses on Microfluidics, Nanotechnology, Chromatography, Biomedical engineering and DNA. His Microfluidics research includes elements of Reagent, Polyester, DNA extraction, Fluidics and Analytical chemistry. His work carried out in the field of Nanotechnology brings together such families of science as Laser cutting and Downstream processing.
He works in the field of Chromatography, namely Extraction. His Biomedical engineering research incorporates elements of Whole blood and Organ-on-a-chip. His DNA research is multidisciplinary, incorporating perspectives in Sperm, Molecular biology, Biophysics and Virology.
His scientific interests lie mostly in Microfluidics, Nanotechnology, Biomedical engineering, Polyester and DNA. His Microfluidics research integrates issues from Fluidics, Reagent, Diagnostic marker and Analytical chemistry. His Nanotechnology study combines topics from a wide range of disciplines, such as Rotation and Rotational speed.
His studies in DNA integrate themes in fields like DNA Mutational Analysis, Mutation, DNA extraction, Molecular biology and Chromatography. His research in DNA extraction intersects with topics in Sperm, Bead and Solid phase extraction, Extraction. His research integrates issues of Polyethylene terephthalate and Polymerase chain reaction in his study of Chromatography.
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Handbook of Capillary Electrophoresis
James P. Landers.
A fully integrated microfluidic genetic analysis system with sample-in–answer-out capability
Christopher J. Easley;James M. Karlinsey;Joan M. Bienvenue;Lindsay A. Legendre.
Proceedings of the National Academy of Sciences of the United States of America (2006)
Microchip-based purification of DNA from biological samples.
Michael C. Breadmore;Kelley A. Wolfe;Imee G. Arcibal;Wayne K. Leung.
Analytical Chemistry (2003)
The Ah receptor and the mechanism of dioxin toxicity.
J P Landers;N J Bunce.
Biochemical Journal (1991)
Polymerase chain reaction in polymeric microchips: DNA amplification in less than 240 seconds.
B.C. Giordano;J. Ferrance;S. Swedberg;A.F.R. Hühmer.
Analytical Biochemistry (2001)
Integrated electrophoretic microdevices
K Alan Hauser;H Herbert Belmont Hooper;J Robert Alameda Nelson;P Alexander Sassi.
Evaluation of silica resins for direct and efficient extraction of DNA from complex biological matrices in a miniaturized format.
Huijun Tian;Andreas F.R. Hühmer;James P. Landers.
Analytical Biochemistry (2000)
Toward a microchip-based solid-phase extraction method for isolation of nucleic acids
Kelley A. Wolfe;Michael C. Breadmore;Jerome P. Ferrance;Mary E. Power.
Infrared-Mediated Thermocycling for Ultrafast Polymerase Chain Reaction Amplification of DNA
R. P. Oda;M. A. Strausbauch;A. F. R. Huhmer;N. Borson.
Analytical Chemistry (1998)
A universal concept for stacking neutral analytes in micellar capillary electrophoresis.
James Palmer;Nicole J. Munro;James P. Landers.
Analytical Chemistry (1999)
Profile was last updated on December 6th, 2021.
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