Gold-sulphide versus sulphide centres on (100) AgIBr surfaces: characterization and mechanism

Cubic AgIBr emulsions sensitized by sulphur-plus-gold with gold added at 40°C either before or after sulphur sensitization at 70°C were prepared and studied. Gold ions incorporate into the silver-sulphide centres and decrease the diffuse reflectance spectroscopy (DRS) response. The emulsions with go...

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Bibliographic Details
Published inThe imaging science journal Vol. 51; no. 4; pp. 255 - 267
Main Authors Tan, J, Hailstone, R K, De Keyzer, R
Format Journal Article
LanguageEnglish
Published Suffolk Taylor & Francis 01.01.2003
Professional Engineering Publishing
Subjects
cubic AgIBr emulsions
diffuse reflectance spectroscopy
Exact sciences and technology
Instruments, apparatus, components and techniques common to several branches of physics and astronomy
Photography, photographic instruments and techniques; xerography
Physics
sulphide centre
sulphur-plus-gold sensitization
Photography
Reflection spectroscopy
Sensitivity analysis
Diffuse reflection
Ternary compounds
Sensitization
Silver Iodides Bromides
Photographic emulsions
Experimental study
Sensor materials
Gold sulfide
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Summary:Cubic AgIBr emulsions sensitized by sulphur-plus-gold with gold added at 40°C either before or after sulphur sensitization at 70°C were prepared and studied. Gold ions incorporate into the silver-sulphide centres and decrease the diffuse reflectance spectroscopy (DRS) response. The emulsions with gold added before the heat cycle through 70°C showed a dependence on the amount of gold for a speed increase at 0.01 s and their reciprocity failure property, whereas the emulsion with gold added at 40°C after the heat cycle did not. Gold present at the elevated sensitization temperature enhanced long-wavelength sensitivity in a wider wavelength region than gold added after the heat cycle. The different sensitometric behaviour between gold added before or after the heat cycle could be explained by the enhanced thiosulphate conversion effect of gold at 70°C. The electron trapping energy level of the sensitization centre is speculated to be slightly higher for sulphur-plus-gold than sulphur sensitization. Opposite trends were observed in DRS and long-wavelength sensitivity when the gold level increased. Whether the electronic effect of gold during exposure on top of its latensification effect in sulphur-plus-gold sensitization could be observed seems to be dependent on the sulphur level. A mechanism is proposed.
ISSN:1368-2199
1743-131X
DOI:10.1080/13682199.2003.11784431