M. Goulding scite author profile

Photoluminescence (PL) spectroscopy, transmission electron microscopy (TEM), and defect etching have been used to characterize epitaxial stacking faults (ESF) in silicon epilayers grown by low-pressure chemical vapor deposition (LPCVD) and oxidation-induced stacking faults (OISF) in high-purity float-zone (FZ) Si. No dislocation-related luminescence was observed from either ESFs or OISFs grown under clean conditions. Deliberate surface contamination, followed by annealing with Cu, Fe, Ni, Ag, or Au in the range 4×1012–2×1016 atoms cm−2 introduced dislocation luminescence features, with a maximum intensity at ≊4×1012 atoms cm−2. TEM examination revealed that there was no evidence for precipitation at low levels of contamination but as the contamination level increased metal-related precipitates were observed on the bounding partial dislocations.

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A comparison of thermo- and photo-chromic behaviour in films of amorphous WO3

Goulding

Thomas

Hurditch

1983

Solid State Communications

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The transport properties of amorphous films of tungstic oxide, sublimed under different conditions

Goulding

Thomas

1979

Thin Solid Films

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M. Goulding

The selective epitaxial growth of silicon

Concentration of atomic hydrogen diffused into silicon in the temperature range 900–1300 °C

Characterization of epitaxial and oxidation-induced stacking faults in silicon: The influence of transition-metal contamination

A comparison of thermo- and photo-chromic behaviour in films of amorphous WO3

The transport properties of amorphous films of tungstic oxide, sublimed under different conditions

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