54 Publications (Page 1 of 3)
2024
Development of a mix-and-read assay for human asprosin using antibody–oligonucleotide probes and thermofluorimetric analysisHu, Juan and Easley, Christopher JAnalytical Methods, vol. 16, (no. 35), pp. 6057-6063, 2024.
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2021
Active Flow Control and Dynamic Analysis in Droplet MicrofluidicsShi, Nan⋅Mohibullah, Md and Easley, Christopher JAnnual Review of Analytical Chemistry, vol. 14, 2021.
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2019
A Nucleic Acid Nanostructure Built through On-electrode Ligation for Electrochemical Detection of a Broad Range of AnalytesSomasundaram, Subramaniam and Easley, Christopher JJournal of the American Chemical Society, vol. 141, (no. 29), pp. 11726, 2019-Jun-30.
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Nonfaradaic Current Suppression in DNA-Based Electrochemical Assays with a Differential PotentiostatHoltan, Mark D⋅Somasundaram, Subramaniam⋅Khuda, Niamat and Easley, Christopher JAnalytical Chemistry, 2019-12-03.
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2018
Advancement of analytical modes in a multichannel, microfluidic droplet-based sample chopper employing phase-locked detection.Negou, Jean T⋅Negou, Jean T.⋅Hu, Juan⋅Hu, Juan⋅Li, Xiangpeng⋅Li, Xiangpeng⋅Easley, Christopher J and Easley, Christopher J.Analytical methods : advancing methods and applications, vol. 10, (no. 28), pp. 3436-3443, July 28, 2018.
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Automated microfluidic droplet sampling with integrated, mix-and-read immunoassays to resolve endocrine tissue secretion dynamics.Li, Xiangpeng⋅Li, Xiangpeng⋅Hu, Juan⋅Hu, Juan⋅Easley, Christopher J. and Easley, Christopher JLab on a chip, August 16, 2018.
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Eric Lagally (Ed.): Microfluidics and nanotechnology: biosensing to the single molecule limitEasley, Christopher J(pp. 5711-5713). Sep 2018
Eric Lagally (Ed.): Microfluidics and nanotechnology: biosensing to the single molecule limit.Easley, Christopher JAnalytical and bioanalytical chemistry, June 20, 2018.
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In celebration of the 60th birthday of 2 microfluidics pioneers: Professor Susan Lunte and Professor James LandersEasley, Christopher J⋅Regan, Fiona⋅Roper, Michael G and Martin, R S(pp. 3433-3435). 2018
In celebration of the 60th birthday of 2 microfluidics pioneers: Professor Susan Lunte and Professor James LandersEasley, Christopher J⋅Regan, Fiona⋅Roper, Michael G and Martin, R. ScottAnalytical Methods, vol. 1, (no. 28), pp. 3435, 20180719.
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Microfluidics systems with societal impact in Analytical MethodsRoper, Michael G⋅Easley, Christopher J⋅Regan, Fiona and Southall, Maria EAnalytical Methods, vol. 1, (no. 41), pp. 4969, 20181025.
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Understanding Signal and Background in a Thermally Resolved, Single-Branched DNA Assay Using Square Wave VoltammetrySomasundaram, Subramaniam⋅Holtan, Mark D and Easley, Christopher JAnalytical Chemistry, vol. 90, (no. 5), pp. 3591, 20180306.
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2017
3D-templated, fully automated microfluidic input/output multiplexer for endocrine tissue culture and secretion samplingElectronic supplementary information (ESI) available: Additional materials, methods, figures, and videos. See DOI: 10.1039/c6lc01201aLi, Xiangpeng⋅Li, Xiangpeng⋅Brooks, Jessica C⋅Brooks, Jessica C.⋅Hu, Juan⋅Hu, Juan⋅Ford, Katarena I.⋅Ford, Katarena I⋅Easley, Christopher J and Easley, Christopher J.(no. 2), pp. 349, 20170117.
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Automated Microfluidic Droplet-Based Sample Chopper for Detection of Small Fluorescence Differences Using Lock-In AnalysisNegou, Jean T.⋅Negou, Jean T⋅Avila, L. Adriana⋅Avila, L. Adriana⋅Li, Xiangpeng⋅Li, Xiangpeng⋅Hagos, Tesfagebriel M.⋅Hagos, Tesfagebriel M⋅Easley, Christopher J. and Easley, Christopher JAnalytical Chemistry, vol. 89, (no. 11), pp. 6159, 20170606.
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Culture and Sampling of Primary Adipose Tissue in Practical Microfluidic Systems.Brooks, Jessica C⋅Brooks, Jessica C⋅Judd, Robert L⋅Judd, Robert L⋅Easley, Christopher J and Easley, Christopher JMethods in molecular biology (Clifton, N.J.), vol. 1566, pp. 185-201, 2017.
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Homogeneous Assays of Second Messenger Signaling and Hormone Secretion Using Thermofluorimetric Methods That Minimize Calibration BurdenHu, Juan and Easley, Christopher JAnalytical Chemistry, vol. 89, (no. 16), pp. 8523, 20170815.
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Microfluidic systems for studying dynamic function of adipocytes and adipose tissueLi, Xiangpeng⋅Li, Xiangpeng⋅Easley, Christopher J. and Easley, ChristopherAnalytical and Bioanalytical Chemistry, pp. 1-10, Dec 2017.
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2016
3D-templated, fully automated microfluidic input/output multiplexer for endocrine tissue culture and secretion sampling.Li, Xiangpeng⋅Brooks, Jessica C⋅Hu, Juan⋅Ford, Katarena I and Easley, Christopher JLab on a chip, December 19, 2016.
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Direct hydrogel encapsulation of pluripotent stem cells enables ontomimetic differentiation and growth of engineered human heart tissues.Kerscher, Petra⋅Turnbull, Irene C⋅Hodge, Alexander J⋅Kim, Joonyul⋅Seliktar, Dror⋅Easley, Christopher J⋅Costa, Kevin D and Lipke, Elizabeth ABiomaterials, vol. 83, pp. 383-395, March 2016.
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Macro-to-micro interfacing to microfluidic channels using 3D-printed templates: application to time-resolved secretion sampling of endocrine tissue.Brooks, Jessica C⋅Ford, Katarena I⋅Holder, Dylan H⋅Holtan, Mark D and Easley, Christopher JThe Analyst, August 3, 2016.
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Macro-to-micro interfacing to microfluidic channels using 3D-printed templates: application to time-resolved secretion sampling of endocrine tissueElectronic supplementary information (ESI) available. See DOI: 10.1039/c6an01055eBrooks, Jessica C⋅Ford, Katarena I⋅Holder, Dylan H⋅Holtan, Mark D and Easley, Christopher J(no. 2), pp. 5721, 20161003.
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2015
A microfluidic interface for the culture and sampling of adiponectin from primary adipocytes.Godwin, Leah A⋅Godwin, Leah A⋅Brooks, Jessica C⋅Brooks, Jessica C⋅Hoepfner, Lauren D⋅Hoepfner, Lauren D⋅Wanders, Desiree⋅Wanders, Desiree⋅Judd, Robert L⋅Judd, Robert L⋅Easley, Christopher J and Easley, Christopher JThe Analyst, vol. 140, (no. 4), pp. 1019-1025, February 21, 2015.
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Protein quantification using controlled DNA melting transitions in bivalent probe assemblies.Kim, Joonyul⋅Hu, Juan⋅Bezerra, Andresa B⋅Holtan, Mark D⋅Brooks, Jessica C and Easley, Christopher JAnalytical chemistry, vol. 87, (no. 19), pp. 9576-9579, October 6, 2015.
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Quantifying Aptamer-Protein Binding via Thermofluorimetric Analysis.Hu, Juan⋅Kim, Joonyul and Easley, Christopher JAnalytical methods : advancing methods and applications, vol. 7, (no. 17), pp. 7358-7362, September 7, 2015.
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Quantifying aptamer-protein binding via thermofluorimetric analysisElectronic supplementary information (ESI) available: Confirmed aptamer quantification with SYBR Green (Fig. S-1); confirmation of negligible protein-SYBR Green interactions (Fig. S-2); data processing workflow for −dF/dT difference plots (Fig. S-3); evaluation of different probe concentrations for TFA (Fig. S-4); and validation of thrombin TFA using thiazole orange (Fig. S-5). See DOI: 10.1039/c5ay00837aHu, Juan⋅Kim, Joonyul and Easley, Christopher J(no. 17), pp. 7362, 20150820.
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