By Richard C. Alkire, Dieter M. Kolb, Jacek Lipkowski, Phil N. Ross
With contributions from a global crew of professional authors, this booklet comprises the newest tendencies in tailoring interfacial homes electrochemically. The chapters disguise a number of natural and inorganic compounds, with purposes starting from electrochemistry to nanotechnology and biology.
Of curiosity to actual, floor and electrochemists, fabrics scientists and physicists.
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Additional resources for Chemically Modified Electrodes (Advances in Electrochemical Sciences and Engineering)
The electrode also showed an excellent potentiometric response over a pH range of 2–12. The high surface areas of these electrodes make them ideal for electroanalytical applications where the high surface area is exploited to improve detection limits and/or detection range. Evans et al.  have demonstrated the production of platinum mesoporous electrodes and their application into the detection of H2O2. The produced electrode had an internal surface area that was $100 times higher than the original electrode.
12d). This resulted in the deposition of silver over the activated surface; ﬁnally the alumina membrane was dissolved away. Direct sputtering of the desired metal into an alumina membrane to give arrays of nanotubules has also been achieved. This was demonstrated by Guo et al. 12 Stepwise synthesis scheme for chemical deposition of silver into an alumina membrane. (With kind permission from Springer Science þ Business Media: . A. ) directly deposit metals into the porous structure of an alumina membrane.
It is noteworthy that an almost identical rate constant was reported by Zhao et al.  using nanotube-modiﬁed electrodes prepared in a very similar way. Work on the nanostructuring of electrodes with carbon nanotubes by Gooding and coworkers [96, 97] has demonstrated that superior electrochemical performance can be achieved with carbon nanotubes that are vertically aligned compared with being j29 j 1 Nanostructured Electrodes with Unique Properties for Biological and Other Applications 30 randomly dispersed.