77 Publications (Page 1 of 4)
2023
CLIPB4 is a central node in the protease network that regulates humoral immunity inAnopheles gambiaemosquitoes
2020
Measuring stimulation and inhibition of intracellular nitric oxide production in SIM-A9 microglia using microfluidic single-cell analysis
Sibbitts, Jay and Culbertson, Christopher T.
Analytical Methods, vol. 12, pp. 4665–4673. | Journal Article
2019
Fabrication of Glass Microfluidic Devices.
Culbertson, Christopher T⋅Sibbitts, Jay⋅Sellens, Kathleen and Jia, Shu
Methods in molecular biology (Clifton, N.J.), vol. 1906, pp. 1-12, 2019. | Journal Article
Microelectrophoretic single-cell measurements with microfluidic devicesSibbitts, Jay⋅Sadeghi, Jalal and Culbertson, Christopher T.(pp. 223–241). Elsevier
2018
Cellular Analysis Using Microfluidics
Sibbitts, Jay⋅Sellens, Kathleen A.⋅Jia, Shu⋅Klasner, Scott A. and Culbertson, Christopher T.
Analytical Chemistry, vol. 90, pp. 65–85. | Journal Article
Early detection of pancreatic cancers in liquid biopsies by ultrasensitive fluorescence nanobiosensors
Kalubowilage, Madumali⋅Covarrubias-Zambrano, Obdulia⋅Malalasekera, Aruni P.⋅Wendel, Sebastian O.⋅Wang, Hongwang⋅Yapa, Asanka S.⋅Chlebanowski, Lauren⋅Toledo, Yubisela⋅Ortega, Raquel⋅Janik, Katharine E.⋅Shrestha, Tej B.⋅Culbertson, Christopher T.⋅Kasi, Anup⋅Williamson, Stephen⋅Troyer, Deryl L. and Bossmann, Stefan H.
Nanomedicine: Nanotechnology, Biology and Medicine, vol. 14, pp. 1823–1832. | Journal Article
2017
AC dielectrophoretic manipulation and electroporation of vaccinia virus using carbon nanoelectrode arrays.Madiyar, Foram Ranjeet⋅Madiyar, Foram Ranjeet⋅Haller, Sherry L⋅Basset, Sherry⋅Farooq, Omer⋅Farooq, Omer⋅Rothenburg, Stefan⋅Rothenburg, Stefan⋅Culbertson, Christopher⋅Culbertson, Christopher⋅Li, Jun and Li, JunElectrophoresis, February 17, 2017.
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Effects of storage temperature on airway exosome integrity for diagnostic and functional analysesMaroto, Rosario⋅Maroto, Rosario⋅Zhao, Yingxin⋅Zhao, Yingxin⋅Jamaluddin, Mohammad⋅Jamaluddin, Mohammad⋅Popov, Vsevolod⋅Popov, Vsevolod L.⋅Wang, Hongwang⋅Wang, Hongwang⋅Kalubowilage, Madumali⋅Kalubowilage, Madumali⋅Zhang, Yueqing⋅Zhang, Yueqing⋅Luisi, Jonathan⋅Luisi, Jonathan⋅Sun, Hong⋅Sun, Hong⋅Culbertson, Christopher⋅Culbertson, Christopher T.⋅Bossmann, Stefan H.⋅Bossmann, Stefan⋅Motamedi, Massoud⋅Motamedi, Massoud⋅Brasier, Allan and Brasier, Allan R.Journal of Extracellular Vesicles, vol. 6, pp. 1359478.
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Out-of-plane integration of a multimode optical fiber for single particle/cell detection at multiple points on a microfluidic device with applications to particle/cell counting, velocimetry, size discrimination and the analysis of single cell lysate injections. Lab on a Chip
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2016
High-throughput microfluidic device for single cell analysis using multiple integrated soft lithographic pumps.
Patabadige, Damith E W⋅Mickleburgh, Tom⋅Ferris, Lorin⋅Brummer, Gage⋅Culbertson, Anne H and Culbertson, Christopher T
Electrophoresis, vol. 37, (no. 10), pp. 1337-1344, May 2016. | Journal Article
Integrating Optical Fiber Bridges in Microfluidic Devices to Create Multiple Excitation/Detection Points for Single Cell Analysis
Patabadige, Damith E. W.⋅Sadeghi, Jalal⋅Kalubowilage, Madumali⋅Bossmann, Stefan H.⋅Culbertson, Anne H.⋅Latifi, Hamid and Culbertson, Christopher T.
Analytical Chemistry, vol. 88, pp. 9920–9925. | Journal Article
Micro Total Analysis Systems: Fundamental Advances and Applications
Patabadige, Damith E. W.⋅Jia, Shu⋅Sibbitts, Jay⋅Sadeghi, Jalal⋅Sellens, Kathleen and Culbertson, Christopher T.
Analytical Chemistry, vol. 88, pp. 320–338. | Journal Article
Out-of-plane integration of a multimode optical fiber for single particle/cell detection at multiple points on a microfluidic device with applications to particle/cell counting, velocimetry, size discrimination and the analysis of single cell lysate injections.
Sadeghi, Jalal⋅Patabadige, Damith E W⋅Culbertson, Anne H⋅Latifi, Hamid and Culbertson, Christopher T
Lab on a chip, vol. 17, (no. 1), pp. 145-155, December 20, 2016. | Journal Article
2015
Integration of a nanostructured dielectrophoretic device and a surface-enhanced Raman probe for highly sensitive rapid bacteria detection.Madiyar, Foram Ranjeet⋅Madiyar, F. R.⋅Bhana, S.⋅Bhana, Saheel⋅Swisher, Luxi Z⋅Swisher, L. Z.⋅Culbertson, Christopher T⋅Culbertson, C. T.⋅Huang, Xiaohua⋅Huang, X. H.⋅Li, J. and Li, JunNanoscale, vol. 7, (no. 8), pp. 3726-3736, February 28, 2015.
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2014
Micro total analysis systems: fundamental advances and biological applications.
Culbertson, Christopher T⋅Mickleburgh, Tom G⋅Stewart-James, Samantha A⋅Sellens, Kathleen A and Pressnall, Melissa
Analytical chemistry, vol. 86, (no. 1), pp. 95-118, January 7, 2014. | Journal Article
2013
An Integrated Microfluidic Device for Monitoring Changes in Nitric Oxide Production in Single T-Lymphocyte (Jurkat) CellsMetto, Eve C⋅Evans, Karsten⋅Barney, Patrick⋅Culbertson, Anne H⋅Gunasekara, Dulan B⋅Caruso, Giuseppe⋅Hulvey, Matthew K⋅da Silva, Jose A⋅Fracassi da Silva, Jose Alberto⋅Lunte, Susan and Culbertson, Christopher TAnalytical Chemistry, vol. 85, (no. 21), Nov 5, 2013.
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Manipulation of bacteriophages with dielectrophoresis on carbon nanofiber nanoelectrode arrays
Madiyar, Foram R.⋅Syed, Lateef U.⋅Culbertson, Christopher T. and Li, Jun
ELECTROPHORESIS, vol. 34, pp. NA–NA. | Journal Article
Manipulation of bacteriophages with dielectrophoresis on carbon nanofiber nanoelectrode arrays.Madiyar, Foram R⋅Syed, Lateef U⋅Culbertson, Christopher T and Li, JunElectrophoresis, vol. 34, (no. 7), pp. 1123-1130, April 2013.
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2012
Monitoring intracellular nitric oxide production using microchip electrophoresis and laser-induced fluorescence detectionMainz, Emilie R⋅Gunasekara, Dulan B⋅Caruso, Giuseppe⋅Jensen, Derek T⋅Hulvey, Matthew K⋅Fracassi da Silva, Jose A⋅Metto, Eve C⋅Culbertson, Anne H⋅Culbertson, Christopher T and Lunte, Sue MAnalytical Methods, vol. 4, (no. 2), pp. 414-420, 2012.
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2011
Dielectrophoretic capture of E. coli cells at micropatterned nanoelectrode arraysSyed, Lateef U⋅Syed, Lateef U.⋅Liu, Jianwei⋅Liu, Jianwei⋅Price, Alex K⋅Price, Alex K.⋅Li, Yi-fen⋅Li, Yi-fen⋅Culbertson, Christopher T.⋅Culbertson, Christopher T⋅Li, Jun and Li, JunELECTROPHORESIS, pp. n/a–n/a.
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2010
Correction to Synthesis and Characterization of a Poly(dimethylsiloxane)-Poly(ethylene oxide) Block Copolymer for Fabrication of Amphiphilic Surfaces on Microfluidic Devices
Klasner, Scott A.⋅Metto, Eve C.⋅Roman, Gregory T. and Culbertson, Christopher T.
Langmuir, vol. 26, pp. 6078–6078. | Journal Article
Integrated microfluidic device for the separation and electrochemical detection of catechol estrogen-derived DNA adductsBani-Yaseen, Abdulilah D⋅Bani-Yaseen, Abdulilah Dawoud⋅Kawaguchi, Toshikazu⋅Kawaguchi, Toshikazu⋅Price, Alexander K⋅Price, Alexander K.⋅Culbertson, Christopher T.⋅Culbertson, Christopher T⋅Jankowiak, Ryszard J and Jankowiak, RyszardAnal Bioanal Chem, vol. 399, pp. 519–524.
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Paper-based microfluidic devices for analysis of clinically relevant analytes present in urine and saliva.
Klasner, Scott A⋅Price, Alexander K⋅Hoeman, Kurt W⋅Wilson, Rashaun S⋅Bell, Kayla J and Culbertson, Christopher T
Analytical and bioanalytical chemistry, vol. 397, (no. 5), pp. 1821-9, 2010/Jul. | Journal Article
2009
Demonstration of an integrated electroactive polymer actuator on a microfluidic electrophoresis device
Price, Alexander K.⋅Anderson, Kristen M. and Culbertson, Christopher T.
Lab on a Chip, vol. 9, pp. 2076. | Journal Article
Electrokinetic trapping using titania nanoporous membranes fabricated using sol-gel chemistry on microfluidic devicesHoeman, Kurt W⋅Lange, Jeffrey J⋅Roman, Gregory T⋅Higgins, Daniel A and Culbertson, Christopher TElectrophoresis, vol. 30, (no. 18), pp. 3160-3167, 2009.
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