Add to ORKGCoplanar transient photoconductivity and post-transit time-of-flight spectroscopy techniques are used to study carrier transport in microcrystalline silicon films prepared over a range of crystallinities. Although reduced deep defect densities are indicated in more highly crystalline films, this is thought to be an artefact of the shallow Fermi level position. Coplanar samples are susceptible to post-deposition oxidation and reversible adsorption of atmospheric gases, which alter the apparent density of states. A comparison of the results obtained using both techniques suggests that transport is anisotropic, with reduced band tailing (greater structural order) along the direction of film growth, a larger defect concentration around column b...
Electron irradiation of silicon thin films creates localised states, which degrade theiropto-electro...
For a better understanding of electronic transport mechanisms in thin-film silicon solar cell qualit...
We have investigated doped and undoped layers of microcrystalline silicon prepared by hot-wire chemi...
Coplanar transient photoconductivity and post-transit time-of-flight spectroscopy techniques are use...
The technique of time-of-flight photocurrent spectroscopy, and its application in the study of carri...
The influence of dangling-bond defects and the position of the Fermi level on the charge carrier tra...
The development of microcrystalline silicon thin films and devices is briefly reviewed. Transport me...
Metastability effects in hydrogenated microcrystalline silicon thin films due to air, high purity ni...
The electronic properties of undoped microcrystalline silicon oxide films have been investigated by ...
Measurements of dark conductivity, steady-state and transient photoconductivity in undoped and boron...
A photocurrent time-of-flight study of carrier transport in microcrystalline silicon pin diodes prep...
Steady-state photocarrier grating (SSPG) and steady-state photoconductivity, sigma(ph), experiments ...
The electronic properties of amorphous and microcrystalline silicon layers in thin-film solar cells ...
Charge carrier transport in solid phase crystallized polycrystalline silicon poly Si was investiga...
Electron irradiation of silicon thin films creates localised states, which degrade theiropto-electro...
For a better understanding of electronic transport mechanisms in thin-film silicon solar cell qualit...
We have investigated doped and undoped layers of microcrystalline silicon prepared by hot-wire chemi...
Coplanar transient photoconductivity and post-transit time-of-flight spectroscopy techniques are use...
The technique of time-of-flight photocurrent spectroscopy, and its application in the study of carri...
The influence of dangling-bond defects and the position of the Fermi level on the charge carrier tra...
The development of microcrystalline silicon thin films and devices is briefly reviewed. Transport me...
Metastability effects in hydrogenated microcrystalline silicon thin films due to air, high purity ni...
The electronic properties of undoped microcrystalline silicon oxide films have been investigated by ...
Measurements of dark conductivity, steady-state and transient photoconductivity in undoped and boron...
A photocurrent time-of-flight study of carrier transport in microcrystalline silicon pin diodes prep...
Steady-state photocarrier grating (SSPG) and steady-state photoconductivity, sigma(ph), experiments ...
The electronic properties of amorphous and microcrystalline silicon layers in thin-film solar cells ...
Charge carrier transport in solid phase crystallized polycrystalline silicon poly Si was investiga...
Electron irradiation of silicon thin films creates localised states, which degrade theiropto-electro...
For a better understanding of electronic transport mechanisms in thin-film silicon solar cell qualit...
We have investigated doped and undoped layers of microcrystalline silicon prepared by hot-wire chemi...