Control of Defect Concentrations within a Semiconductor through Adsorption

Abstract: The technologically useful properties of a crystalline solid depend upon the concentration of defects it contains. Here we show that defect concentrations as deep as 0.5 microm within a semiconductor can be profoundly influenced by gas adsorption. Self-diffusion rates within silicon show that nitrogen atoms adsorbed at less than 1% of a monolayer lead to defect concentrations that vary controllably over several orders of magnitude. The results show that previous measurements of diffusion and defect thermodynam… Show more

“…Such a fast oxygen uptake at a remarkably low temperature suggests a non-typical mechanistic pathway for the re-oxidation of TiO 2−x . Modelling the diffusion of oxygen, we show that a likely pathway involves 'exceptionally mobile' interstitial oxygen 8-10 produced by the oxygen adsorption and decomposition dynamics, recently observed on the surface of anatase 6 .The limiting step for oxygen uptake in metal oxides is often hypothesized to be the thermally activated diffusion of bulk oxygen vacancies (V O ) to the surface, where the V O are annihilated by adsorbed oxygen [10][11][12][13][14] . Materials that depend on this mechanism are useful only at high temperatures, or have a low oxygen uptake capacity that is limited by the sites available for surface absorption or adsorption.…”

“…Such a fast oxygen uptake at a remarkably low temperature suggests a non-typical mechanistic pathway for the re-oxidation of TiO 2−x . Modelling the diffusion of oxygen, we show that a likely pathway involves 'exceptionally mobile' interstitial oxygen [8][9][10] produced by the oxygen adsorption and decomposition dynamics, recently observed on the surface of anatase 6 .…”

“…The limiting step for oxygen uptake in metal oxides is often hypothesized to be the thermally activated diffusion of bulk oxygen vacancies (V O ) to the surface, where the V O are annihilated by adsorbed oxygen [10][11][12][13][14] . Materials that depend on this mechanism are useful only at high temperatures, or have a low oxygen uptake capacity that is limited by the sites available for surface absorption or adsorption.…”

Reversible oxygen scavenging at room temperature using electrochemically reduced titanium oxide nanotubes

“…Such a fast oxygen uptake at a remarkably low temperature suggests a non-typical mechanistic pathway for the re-oxidation of TiO 2−x . Modelling the diffusion of oxygen, we show that a likely pathway involves 'exceptionally mobile' interstitial oxygen 8-10 produced by the oxygen adsorption and decomposition dynamics, recently observed on the surface of anatase 6 .The limiting step for oxygen uptake in metal oxides is often hypothesized to be the thermally activated diffusion of bulk oxygen vacancies (V O ) to the surface, where the V O are annihilated by adsorbed oxygen [10][11][12][13][14] . Materials that depend on this mechanism are useful only at high temperatures, or have a low oxygen uptake capacity that is limited by the sites available for surface absorption or adsorption.…”

“…Such a fast oxygen uptake at a remarkably low temperature suggests a non-typical mechanistic pathway for the re-oxidation of TiO 2−x . Modelling the diffusion of oxygen, we show that a likely pathway involves 'exceptionally mobile' interstitial oxygen [8][9][10] produced by the oxygen adsorption and decomposition dynamics, recently observed on the surface of anatase 6 .…”

“…The limiting step for oxygen uptake in metal oxides is often hypothesized to be the thermally activated diffusion of bulk oxygen vacancies (V O ) to the surface, where the V O are annihilated by adsorbed oxygen [10][11][12][13][14] . Materials that depend on this mechanism are useful only at high temperatures, or have a low oxygen uptake capacity that is limited by the sites available for surface absorption or adsorption.…”

Reversible oxygen scavenging at room temperature using electrochemically reduced titanium oxide nanotubes

“…7 Table I summarizes the a priori estimates and the associated standard deviations. This a priori parameter set has proven capable of accurately simulating profiles for soak and spike annealing, 5 as Fig.…”

“…Corresponding rate parameters are estimated through Bayesian statistics. For example, descriptions have emerged 5 that incorporate a more accurate description of interstitials via surface dangling bonds 6,7 and the effects of near-surface band bending. 8 The present work employs such an approach for boron.…”

Mechanistic benefits of millisecond annealing for diffusion and activation of boron in silicon

Multiscale Modeling and Design of Electrochemical Systems