S. Eddy scite author profile

Sensors are a sample contacting technology, and when exposed to biological matrices tend to suffer from the problem of poor biocompatibility and surface fouling. The effects are evidenced by time dependant signal drift (particularly for those devices which are implanted intravascularly). Practical methods to reduce such effects require an understanding of the interface between the electrode and its environment prior to assessment of the potential areas for improvement. Current procedures employed to overcome the observed losses in electrode sensitivity (following exposure to whole blood) include surface modification of the outer diffusion limiting membrane (via variation in film porosity) or even biomimicry of the fluid cell membrane. At amperometric electrodes incorporation of additional inner perm‐selective membranes has achieved a reduction in electrode passivation from undesirable surface active compounds as has the use of low polarisation potentials. Other studies have attempted to induce an aqueous barrier between the matrix and the electrode tip which physically prevents passage of cellular components from the sensor surface.Careful choice of the system and materials will ultimately lead to biocompatible non‐fouling devices capable of functioning in an array of bio‐environments suitable for clinical monitoring of the critically ill patient.

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The modification of enzyme electrode properties with non-conducting electropolymerised films

Eddy

Warriner

Christie

et al. 1995

Biosensors and Bioelectronics

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The role of copper pretreatment on the morphology of graphene grown by chemical vapor deposition

Gnanaprakasa

Eddy

et al. 2015

Microelectronic Engineering

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The Use of Chemical Sensor Systems for Sampling, Selectivity and Speciation

Christie

Rigby

Treloar

et al. 1998

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S. Eddy

Bio‐/haemocompatibility: implications and outcomes for sensors?

The modification of enzyme electrode properties with non-conducting electropolymerised films

The role of copper pretreatment on the morphology of graphene grown by chemical vapor deposition

The Use of Chemical Sensor Systems for Sampling, Selectivity and Speciation

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