Eric N. Ervin, Ph.D.
Affiliations: | 2007 | University of Utah, Salt Lake City, UT |
Area:
Analytical ChemistryGoogle:
"Eric Ervin"Mean distance: (not calculated yet)
Parents
Sign in to add mentor| Henry S. White | grad student | 2007 | University of Utah | |
| (Alternating current conductance of synthetic and biological nanopores.) | ||||
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Publications
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| Lai R, Ervin EN. (2019) A Bilayer-Based In Vitro Assay for Botulinum Holotoxin Potency Assessments Biophysical Journal. 116: 515a |
| De Biase PM, Ervin EN, Pal P, et al. (2016) What controls open-pore and residual currents in the first sensing zone of alpha-hemolysin nanopore? Combined experimental and theoretical study. Nanoscale |
| Schibel AE, Ervin EN. (2015) Decreasing the Limits of Detection and Analysis Time of Ion Current Rectification Biosensing Measurements via a Mechanically Applied Pressure Differential. Analytical Chemistry. 87: 6646-53 |
| Ervin EN, Schibel AE. (2015) 74. The bilayer-based assay for botulinum potency assessment Toxicon. 93: S23-S24 |
| Schibel AE, Ervin EN. (2014) Antigen detection via the rate of ion current rectification change of the antibody-modified glass nanopore membrane. Langmuir : the Acs Journal of Surfaces and Colloids. 30: 11248-56 |
| Ervin EN, Barrall GA, Pal P, et al. (2014) Creating a Single Sensing Zone within an Alpha-Hemolysin Pore Via Site Directed Mutagenesis. Bionanoscience. 4: 78-84 |
| Samoylova O, Markosyan S, Ervin EN, et al. (2012) Towards Nanopore Sequencing: Comparing Experimental Results with Computational Modeling of DNA Interactions with α-Hemolysin Biophysical Journal. 102: 729a |
| Ervin EN, Watkins JJ, Barrall GA, et al. (2011) Mapping the Sensing Zone of Alpha-Hemolysin Using Immobilized DNA Containing a Single Abasic Residue Biophysical Journal. 100: 167a |
| Lathrop DK, Ervin EN, Barrall GA, et al. (2010) Monitoring the escape of DNA from a nanopore using an alternating current signal. Journal of the American Chemical Society. 132: 1878-85 |
| Ervin EN, White RJ, White HS. (2009) Sensitivity and signal complexity as a function of the number of ion channels in a stochastic sensor. Analytical Chemistry. 81: 533-7 |