Christopher A. Baker, PhD

Affiliations: 
2007-2012 Chemistry and Biochemistry Florida State University, Tallahassee, FL, United States 
 2012-2014 Chemistry and Biochemistry University of Arizona, Tucson, AZ 
 2014-2015 Biotechnology Sandia National Laboratories 
 2015- Chemistry University of Tennessee, Knoxville, TN, United States 
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Parents

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Michael G. Roper grad student 2008-2012 Florida State
 (Microfluidic device development strategies and flow control methods in the analog and digital regimes.)
Craig A. Aspinwall post-doc 2012-2014 University of Arizona
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Publications

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Wang X, Agasid MT, Baker CA, et al. (2019) Surface Modification of Glass/PDMS Microfluidic Valve Assemblies Enhances Valve Electrical Resistance. Acs Applied Materials & Interfaces
Bright LK, Baker CA, Bränström R, et al. (2015) Methacrylate Polymer Scaffolding Enhances the Stability of Suspended Lipid Bilayers for Ion Channel Recordings and Biosensor Development. Acs Biomaterials Science & Engineering. 1: 955-963
Gallagher ES, Adem SM, Baker CA, et al. (2015) Highly stabilized, polymer-lipid membranes prepared on silica microparticles as stationary phases for capillary chromatography. Journal of Chromatography. A. 1385: 28-34
Baker CA, Aspinwall CA. (2015) Emerging trends in precision fabrication of microapertures to support suspended lipid membranes for sensors, sequencing, and beyond. Analytical and Bioanalytical Chemistry. 407: 647-52
Bright LK, Baker CA, Agasid MT, et al. (2013) Decreased aperture surface energy enhances electrical, mechanical, and temporal stability of suspended lipid membranes. Acs Applied Materials & Interfaces. 5: 11918-26
Baker CA, Bright LK, Aspinwall CA. (2013) Photolithographic fabrication of microapertures with well-defined, three-dimensional geometries for suspended lipid membrane studies. Analytical Chemistry. 85: 9078-86
Yu Y, Li B, Baker CA, et al. (2012) Quantitative polymerase chain reaction using infrared heating on a microfluidic chip. Analytical Chemistry. 84: 2825-9
Baker CA, Roper MG. (2012) Online coupling of digital microfluidic devices with mass spectrometry detection using an eductor with electrospray ionization. Analytical Chemistry. 84: 2955-60
Ventura DN, Li S, Baker CA, et al. (2012) A flexible cross-linked multi-walled carbon nanotube paper for sensing hydrogen Carbon. 50: 2672-2674
Baker CA, Bulloch R, Roper MG. (2011) Comparison of separation performance of laser-ablated and wet-etched microfluidic devices. Analytical and Bioanalytical Chemistry. 399: 1473-9
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