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The mechanism of electrochemical reduction of hydrogen peroxide on silver nanoparticles. Physical Chemistry Chemical Physics.
Does the Cation Really Matter? The Effect of Modifying an Ionic Liquid Cation on an SN2 Process. Org. Biomol. Chem.11, 6170–5.
Tanner, E. E. L., H. M. Yau, R. R. Hawker, A. K. Croft, and J. B. Harper. 2013. “Does the Cation Really Matter? The Effect of Modifying an Ionic Liquid Cation on an SN2 Process. Org. Biomol. Chem.11, 6170–5..”
Destructive nano-Impacts: What information can be extracted from spike shapes? Electrochem. Acta 199, 297 –304.
Kätelhön, E., E. E. L. Tanner, C. Batchelor-McAuley, and R. G. Compton. 2016. “Destructive Nano-Impacts: What Information Can Be Extracted from Spike Shapes? Electrochem. Acta 199, 297 –304..”
Single Nanoparticle Detection in Ionic Liquids. J. Phys. Chem. C. 120, 1959–1965.
Tanner, E. E. L., C. Batchelor-McAuley, and R. G. Compton. 2016. “Single Nanoparticle Detection in Ionic Liquids. J. Phys. Chem. C. 120, 1959–1965..”
Design Principles of Ionic Liquids for Transdermal Drug Delivery. Advanced Materials.
Tanner, E. E. L. et al. 2019. “Design Principles of Ionic Liquids for Transdermal Drug Delivery. Advanced Materials..”
Exploring nanoparticle porosity using nano-impacts: platinum nanoparticle aggregates. Phys. Chem. Chem. Phys.19, 64–68.
Jiao, X., S. V. Sokolov, E. E. L. Tanner, N. P. Young, and R. G. Compton. 2017. “Exploring Nanoparticle Porosity Using Nano-Impacts: Platinum Nanoparticle Aggregates. Phys. Chem. Chem. Phys.19, 64–68..”
Understanding Nanoparticle Porosity via Nanoimpacts and XPS: Electro- Oxidation of Platinum Nanoparticle Aggregates. Phys. Chem. Chem. Phys.19, 13547– 13552.
Electroanalytical study of dopamine oxidation on carbon electrodes: from the macro-to the micro-scale. Physical Chemistry Chemical Physics. 20, 148–157.
Lin, C., L. Chen, E. E. L. Tanner, and R. G. Compton. 2018. “Electroanalytical Study of Dopamine Oxidation on Carbon Electrodes: From the Macro-to the Micro-Scale. Physical Chemistry Chemical Physics. 20, 148–157..”
Impact electrochemistry reveals that graphene nanoplatelets catalyse the oxidation of dopamine via adsorption. Chem. Sci.
Chen, L., E. E. L. Tanner, C. Lin, and R. G. Compton. 2018. “Impact Electrochemistry Reveals That Graphene Nanoplatelets Catalyse the Oxidation of Dopamine via Adsorption. Chem. Sci..”