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Full-Text Articles in Engineering
Molecular Separation By Using Active And Passive Microfluidic Chip Designs: A Comprehensive Review, A. Ebrahimi, K. Icoz, R. Didarian, C.-H. Shih, A. Akpek, Berivan Cecen, Sabanci A. Bal-Ozturk, K. Güleç, Y.-C.E Li, S. Shih, B. Sirma Tarim, H.C. Tekin, E. Alarçin, H. Ghorbanpoor, C. Özel, A. Eker Sarıboyacı, Guzel F. Dogan, N. Bassous, S.R. Shin, H. Avci
Molecular Separation By Using Active And Passive Microfluidic Chip Designs: A Comprehensive Review, A. Ebrahimi, K. Icoz, R. Didarian, C.-H. Shih, A. Akpek, Berivan Cecen, Sabanci A. Bal-Ozturk, K. Güleç, Y.-C.E Li, S. Shih, B. Sirma Tarim, H.C. Tekin, E. Alarçin, H. Ghorbanpoor, C. Özel, A. Eker Sarıboyacı, Guzel F. Dogan, N. Bassous, S.R. Shin, H. Avci
Henry M. Rowan College of Engineering Faculty Scholarship
Separation and identification of molecules and biomolecules such as nucleic acids, proteins, and polysaccharides from complex fluids are known to be important due to unmet needs in various applications. Generally, many different separation techniques, including chromatography, electrophoresis, and magnetophoresis, have been developed to identify the target molecules precisely. However, these techniques are expensive and time consuming. “Lab-on-a-chip” systems with low cost per device, quick analysis capabilities, and minimal sample consumption seem to be ideal candidates for separating particles, cells, blood samples, and molecules. From this perspective, different microfluidic-based techniques have been extensively developed in the past two decades to separate …