Angela O'Connell scite author profile

Copper in aqueous sulphuric acid solution at room temperature displays a low level active (metastable) surface state redox transition well within the double layer region, at ca. )0.7±0.1 V (SMSE). The latter is an important feature of this electrode system as it apparently coincides with (a) the transition from activation to transport control in acid sulphate copper plating baths, (b) a major change in the inhibiting properties of several plating bath additives, and (c) the onset/termination potential of electrocatalytic processes, e.g. nitrate reduction, at copper in acid. The nature and influence of this active surface state behaviour, which is assumed to be relevant to Damascene copper plating, is discussed.

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A discussion of the distribution of bonded electron density

O'Connell¹,

Rae²,

Maslen³

1966

Acta Cryst

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Importance of Metastable States in Electrocatalytic Processes at Metal Surfaces in Aqueous Media

Burke¹,

Kinsella

O'Connell

2004

Russian Journal of Electrochemistry

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Step-Count Accuracy of 3 Motion Sensors for Older and Frail Medical Inpatients

McCullagh

Dillon

O'Connell

et al. 2017

Archives of Physical Medicine and Rehabilitation

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Angela O'Connell

Involvement of a metastable surface state in the electrocatalytic, electrodeposition and bath additive behaviour of copper in acid solution

A discussion of the distribution of bonded electron density

Importance of Metastable States in Electrocatalytic Processes at Metal Surfaces in Aqueous Media

Step-Count Accuracy of 3 Motion Sensors for Older and Frail Medical Inpatients

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