| Journal of Physical Chemistry B 2000 Richard G. Compton |
| Title | Subject | Authors |
|---|
| A liquid water model: Density variation from supercooled to superheated states, prediction of H-bonds, and temperature limits. | Chemicals, plastics and rubber industries | Richard G. Compton, F. Hutschka, R. Graham Cooks, S. Clemendot, Nathan S. Lawrence, Arshad Khan |
| Atomic force microscopy under defined hydrodynamic conditions: three-dimensional flow calculations applied to the dissolution of salicylic acid. | Chemicals, plastics and rubber industries | Barry A. Coles, Richard G. Compton, Shelly J. Wilkins, Marco F. Suarez, Qi Hong, George E. Tranter, David Firmin |
| Microdisk electrode voltammetry: theoretical characterization and experimental verification of a novel electrocataltic mechanism. | Chemicals, plastics and rubber industries | Richard G. Compton, F. Hutschka, R. Graham Cooks, S. Clemendot, Benjamin S. Brookes, Nathan S. Lawrence |
| Modeling hot wire electrochemistry. Coupled heat and mass transport at a directly and continuously heated wire. | Chemicals, plastics and rubber industries | Andreas Beckmann, Barry A. Coles, Richard G. Compton, Peter Grundler, Frank Marken, Andreas Neudeck |
| Simulation of square wave voltammetry at hemispherical electrodes: electrochemically reversible, irreversible and quasi-reversible processes. | Chemicals, plastics and rubber industries | Richard G. Compton, Benjamin A. Brookes, Gavin Macfie |
| Simulation of square-wave voltammetry: EC and ECE electrode processes. | Chemicals, plastics and rubber industries | Richard G. Compton, Adrian B. Miles |
| Square wave anodic stripping voltammetry at mercury-plated electrodes. Simulation of surface morphology effects on electrochemically reversible, irreversible, and quasi-reversible processes: Comparison of thin films and microdroplets. | Chemicals, plastics and rubber industries | Richard G. Compton, Marco F. Suarez, Matthew Poweel, Jon C. Ball, Yu-Chen Tsai |
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