Skip to main content

Research Repository

Advanced Search

A microgripper sensor device capable of detecting ion efflux from whole cells (2014)
Journal Article
Daunton, R., Wood, D., Gallant, A., & Kataky, R. (2014). A microgripper sensor device capable of detecting ion efflux from whole cells. RSC Advances, 4(92), 50536-50541. https://doi.org/10.1039/c4ra05052e

Electrothermally actuated microgripper sensor devices that are capable of simultaneous manipulation of live mouse oocytes and the sensing of potassium ion efflux are presented. The ion selective electrode technology applied to a microgripper device y... Read More about A microgripper sensor device capable of detecting ion efflux from whole cells.

Conical recessed gold microelectrode arrays produced during photolithographic methods: characterisation and causes (2007)
Journal Article
Aguiar, F., Gallant, A., Rosamond, M., Rhodes, A., Wood, D., & Kataky, R. (2007). Conical recessed gold microelectrode arrays produced during photolithographic methods: characterisation and causes. Electrochemistry Communications, 9(5), 879-885. https://doi.org/10.1016/j.elecom.2006.11.023

In this work, surface imaging techniques such as scanning Kelvin nanoprobe (SKN), scanning electron microscopy (SEM) and white light interferometer microscopy show that conical recessed electrodes with gradient potential along the recessed walls are... Read More about Conical recessed gold microelectrode arrays produced during photolithographic methods: characterisation and causes.

Individually addressable recessed gold microelectrode arrays with monolayers of thio-cyclodextrin nanocavities (2005)
Journal Article
Grancharov, G., Khosravi, E., Wood, D., Turton, A., & Kataky, R. (2005). Individually addressable recessed gold microelectrode arrays with monolayers of thio-cyclodextrin nanocavities. Analyst, 130(10), 1351-1357. https://doi.org/10.1039/b506367a

Four, individually addressable 30 mu m diameter, e-beam deposited, gold microelectrodes recessed by 6 mm were suitably spaced on a single substrate to avoid diffusional overlap between each microelectrode. The single substrate device was functionalis... Read More about Individually addressable recessed gold microelectrode arrays with monolayers of thio-cyclodextrin nanocavities.