S
Salicylurate (SU), 28
Selectivity and regulation
catalytic activity controlling,
258 – 259
controlling reaction pathways,
257 – 258
Solar photocatalysts.SeeTransition
metal complexes
Spectral sensitization
aspects, 248
bacteriochlorophyll a, electronic
spectrum, 249f
photosensititzer Ru(bpy) 32 þ,
250 – 251, 251f
porphyrins, 248
Spin-catalysis, 256
SU.SeeSalicylurate (SU)
Synergetic effects, 423– 425
T
Titania–chloroplatinum(IV) complexes
diffuse reflectance spectra, 380f
mechanism, 383– 384
photodegradation,
381 – 382artificial visible light,
381 – 382, 382f
indoor and outdoor daylight,
382 – 383, 383f
preparation and characterization,
379 – 381
recorded photovoltage, 381f
sol-gelmethods,PtCl 4 units,378– 379
Titania–halogenorhodium(III)
complexes
characterization, 385– 387
diffuse reflectance spectra,
386f, 387f
mechanism, 389– 391
photocatalytic activity, 387– 388
Transition metal complexes
atmospheric gas conversion
nitrogen oxides, 302– 315
VOCs, 300– 302
environmental compartments
complexation effects, 296– 299
sunlight, 293– 296
hydrosphere and soils, 316– 333
Two-electron redox relays, 262– 263V
Visible light photocatalysis
cocatalyst loading, 419– 420
doping, 415– 416
titania–chloroplatinum(IV)
complexes, 378– 384
titania-halogenorhodium(III)
complexes, 384– 391
Volatile organic compounds (VOCs),
300 – 302W
Water photochemical splitting
cyclic process, 353
FeIIIOFeIIImoiety, 348
osmocene, 349– 353INDEX 439