Michael K. Sahm scite author profile

The simultaneous measurements of conductance and work function changes induced by gaseous ambient have been performed on α-Fe2O3 thick film polycrystalline samples kept at 280 °C and exposed to different gaseous atmospheres. The switching from n- to p-type conductivity on α-Fe2O3 is shown to have an electronic origin, which is due to the oxygen adsorption and formation of a surface inversion layer and, therefore, to the inversion of the surface conduction type. The modeling of the n–p switching is described in terms of conductance dependence on the band bending induced by gaseous ambient.

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A p- to n-transition on α-Fe2O3-based thick film sensors studied by conductance and work function change measurements

Gurlo

Sahm

Oprea

et al. 2004

Sensors and Actuators B: Chemical

138

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Heat Transfer Around Sharp 180-deg Turns in Smooth Rectangular Channels

Metzger

Sahm

1986

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Measured Nusselt numbers are presented for forced convection within and around sharp 180-deg turns in smooth channels of rectangular cross section. Separately determined top wall, bottom wall, and side wall values are presented individually along with azimuthal averages. The geometry of the channels and connecting turn is characterized by the parameters W*, the ratio of upstream and downstream channel widths; D*, the nondimensional channel depth; and H*, the nondimensional clearance at the tip of the turn. Results from nine combinations of these parameters are presented at several values of channel Reynolds number to illustrate the effect of turn geometry on the heat transfer distributions.

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Water and ammonia influence on the conduction mechanisms in polyacrylic acid films

Sahm

Oprea

Bârsan

2007

Sensors and Actuators B: Chemical

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Heat Transfer Around Sharp 180 Degree Turns in Smooth Rectangular Channels

Metzger

Sahm

1985

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Measured Nusselt numbers are presented for forced convection within and around sharp 180 degree turns in smooth channels of rectangular cross section. Separately determined top wall, bottom wall, and side wall values are presented individually along with azimuthal averages. The geometry of the channels and connecting turn is characterized by parameters W*, the ratio of upstream and downstream channel widths; D*, the non-dimensional channel depth; and H*, the non-dimensional clearance at the tip of the turn. Results from nine combinations of these parameters are presented at several values of channel Reynolds number to illustrate the effect of turn geometry on the heat transfer distributions.

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Michael K. Sahm

An n- to p-type conductivity transition induced by oxygen adsorption on α-Fe2O3

A p- to n-transition on α-Fe2O3-based thick film sensors studied by conductance and work function change measurements

Heat Transfer Around Sharp 180-deg Turns in Smooth Rectangular Channels

Water and ammonia influence on the conduction mechanisms in polyacrylic acid films

Heat Transfer Around Sharp 180 Degree Turns in Smooth Rectangular Channels

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