Molecular bridging of silicon nanogaps

Ashwell, Geoffrey J.; Phillips, Laurie J.; Robinson, Benjamin J.; Lambert, Colin J.; Grace, Iain M.; Bryce, Martin R.; Sage, Ian C.; Tuffin, Rachel P.; Cox, Timothy; Urasinska-Wojcik, Barbara; Jitchati, Rukkiat; Tavasli, Mustafa; Ray, Shona

doi:10.1021/nn102460z

All Outputs (3)

Fabrication and evaluation of a micro(bio)sensor array chip for multiple parallel measurements of important cell biomarkers (2014)
Journal Article
Sage, I. C., Drago, G. A., Pemberton, R., Cox, T., Tuffin, R., Griffiths, J., …Hart, J. P. (2014). Fabrication and evaluation of a micro(bio)sensor array chip for multiple parallel measurements of important cell biomarkers. Sensors, 14(11), 20519-20532. https://doi.org/10.3390/s141120519

© 2014 by the authors; licensee MDPI, Basel, Switzerland. This report describes the design and development of an integrated electrochemical cell culture monitoring system, based on enzyme-biosensors and chemical sensors, for monitoring indicators of... Read More about Fabrication and evaluation of a micro(bio)sensor array chip for multiple parallel measurements of important cell biomarkers.

Synthesis of covalently linked molecular bridges between silicon electrodes in CMOS-based arrays of vertical Si/SiO 2/Si nanogaps (2011)
Journal Article
Sage, I. C., Grace, I. M., Lambert, C. J., Williams, A. T., Barnes, S. A., Robinson, B. J., …Cox, T. (2011). Synthesis of covalently linked molecular bridges between silicon electrodes in CMOS-based arrays of vertical Si/SiO 2/Si nanogaps. Angewandte Chemie International Edition, 50(37), 8722-8726. https://doi.org/10.1002/anie.201102791

Silicon nanogaps were bridged in situ by grafting 4-ethynylbenzaldehyde to activate the electrodes and coupling 2,6-diaminoanthra-9,10-quinone to link the coatings. The bridged structures exhibit currents of 11-14 nA at 1 V. The process is reversed b... Read More about Synthesis of covalently linked molecular bridges between silicon electrodes in CMOS-based arrays of vertical Si/SiO 2/Si nanogaps.

Molecular bridging of silicon nanogaps (2010)
Journal Article
Tuffin, R. P., Sage, I. C., Bryce, M. R., Grace, I. M., Lambert, C. J., Robinson, B. J., …Ray, S. (2010). Molecular bridging of silicon nanogaps. ACS Nano, 4(12), 7401-7406. https://doi.org/10.1021/nn102460z

The highly doped electrodes of a vertical silicon nanogap device have been bridged by a 5.85 nm long molecular wire, which was synthesized in situ by grafting 4-ethynylbenzaldehyde via C-Si links to the top and bottom electrodes and thereafter by cou... Read More about Molecular bridging of silicon nanogaps.