J. Newey scite author profile

The avalanche multiplication and excess noise properties of a range of submicron Si diodes have been investigated. In these thin diodes the excess noise is found to fall below that predicted by conventional local noise theory. Modeling of the multiplication and excess noise using a recurrence method, which includes the dead space for carrier ionization, gives good agreement with experiment. This suggests that the dead space can reduce the excess noise in submicron Si diodes.

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The effects of DC electric currents on the in‐vitro calcification of bioactive silicon wafers

Canham¹,

Newey²,

Reeves³

et al. 1996

Advanced Materials

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That silicon could become an important tissue‐compatible biomaterial is suggested by recent results. First observations are reported here of the significant effects that electrical bias has on the calcification process under simulated a cellular physiological conditions. Cathodic current flow through porous silicon is shown to accelerate the kinetics of calcium phosphate deposition. Reasons why formation is restricted to the cathodically biased region and why calcium phosphate is not formed within the silicon layer are discussed.

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J. Newey

On the origin of blue luminescence arising from atmospheric impregnation of oxidized porous silicon

Derivatized Mesoporous Silicon with Dramatically Improved Stability in Simulated Human Blood Plasma

Calcium phosphate nucleation on porous silicon: factors influencing kinetics in acellular simulated body fluids

Avalanche noise measurement in thin Si p+-i-n+ diodes

The effects of DC electric currents on the in‐vitro calcification of bioactive silicon wafers

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