Publications on Individually-addresssable micro- and nano-electrode structures and fundamental electrochemistry

Publications on Individually-addressable micro- and nano-electrode structures and fundamental electrochemistry

Sreenivas,; Ang, S.; Fritsch-Faules, I.; Brown, W. D.; Gerhardt, G. A.; Woodward, D. J. “Fabrication and Characterization of Sputtered-Carbon Microelectrode Arrays”, Anal. Chem., 1996, 68,1858-1864.
Nagale, M.P.; Fritsch, I. “Individually-Addressable, Submicron Band Electrode Arrays: Fabrication from Multilayered Materials”, Anal. Chem., 1998, 70, 2902-2907.
Nagale, M.P.; Fritsch, I. “Individually-Addressable, Submicron Band Electrode Arrays: Electrochemical Characterization”, Anal. Chem., 1998, 70, 2908-2913.
John H. Glezen, H.A. Naseem, I. Fritsch, R.K. Ulrich, W.D. Brown, L.W. Schaper; Nasrazadani, S., “Flip Chip Interconnects with Electroplated, Extended Eutectic Solder”, IEEE, 1998 International Conference on Multichip Modules and High Density Packaging, 1998, 319-323.
Henry, C.S.; Fritsch, I. “Microfabricated Recessed Microdisk Electrodes: Characterization in Static and Convective Solutions”, Chem., 1999, 71, 550-556.
Nicole Holsten, Benjamin P. Bowen, Walter R. Vandaveer, IV, Charles S. Henry, Ingrid Fritsch, and Timothy G. Lenihan, “Microcavities and Micropores for Electrochemical Analysis”, Proceedings of the International Symposium on New Directions in Electroanalytical Chemistry II, Johna Leddy, Petr Vanysek, and Marc D. Porter (Eds.), 195th Meeting of the Electrochemical Society, Seattle Washington, The Electrochemical Society, Pennington, NJ, 1999, 99-5, pp. 67-81.
Henry, C.S.; Fritsch, I. “Microcavities Containing Individually-Addressable Recessed Microdisk and Tubular Nanoband Electrodes”, Electrochem. Soc., 1999, 146, 3367-3373.
Henry, C. S.; Vandaveer, IV, W. R.; Mubarak, I; Gray, S. R.; Fritsch, I. “Self-Contained Microelectrochemical Detectors for Analysis in Small Volumes of Static and Flowing Fluids”, in Micro Total Analysis Systems 2001, J. Michael Ramsey and Albert van den Berg (Eds.), Kluwer Academic Publishers: Monterey, CA, 2001, pp. 321-322.
Evans, S. R.; Fritsch, I. “A Self-Contained Microelectrochemical Cavity System Comprising of a Polymer and Phospholipid Membrane Suspended Over a Picoliter Volume”, Electroanalysis , 2004, 16, 45-53.
Etienne, ; Anderson, E. C.; Evans, S. R.; Schuhmann, W.; Fritsch, I. “Feedback-Independent Pt Nanoelectrodes for Shearforce-Based Constant-Distance Mode Scanning Electrochemical Microscopy”, Anal. Chem. 2006, 78(20), 7317-7324.
Etienne, ; Dierkes, P.; Erichsen, T.; Schuhmann, W.; Fritsch, I. “Constant-Distance Mode Scanning Potentiometry. High Resolution pH Measurements in Three-Dimensions”, Electroanalysis 2007, 19, 318-323.
Lewis, P.M.; Sheridan, L.B.; Gawley, R.E.; Fritsch, I. “Signal Amplification in a Microchannel from Redox Cycling with Varied Electroactive Configurations of an Individually-Addressable Microband Electrode Array”, Chem. 2010, 82 (5), 1659–1668. (NIHMS174727) PMCID: PMC2857402
Sahore, V.; Kreidermacher, A.; Khan, F. Z.; Fritsch, I. “Visualization and Measurement of Natural Convection from Electrochemically-Generated Density Gradients at Concentric Microdisk and Ring Electrodes in a Microfluidic System”, Electrochem. Soc., 2016, 163(4), H3135-H3144. DOI: 10.1149/2.0181604jes.