Bhuvan C. Pant scite author profile

Relative initial quantum yields (@A,,,) for the disappearance of I-propanol and propanal were estimated based on total light intensity entering the reaction vessels. Two types of photocatalytic reactor geometries were compared, a commercial prototype flow reactor with immobilized TiO, and a conventional reactor with TiO, dispersion. A maximum relative quantum yield, @I,,, == 1 , was extrapolated for pure propanol and propanal in both geometries. The high quantum yields were attributed to efficient competition of substrate oxidation with electron-hole recombination, at high surface coverage. Propanal was identified as the primary intermediate generated from I-propanol in both reactor systems, but yields of propanal were systematically 10 times lower than I-propanol loss, indicating that there was an effective pathway for propanal oxidation on the surface prior to desorption. The inhibition of I-propanol reaction caused by accumulation of product arises because both reactant and product compete for active sites on the photocatalyst surface. These propositions were confirmed by introducing propanal into the feed. The relative quantum yields converge to unity for pure substrates, suggesting that they are true yields. That is to say, absorption by TiOz of light entering the reactor is efficient in these geometries. GIUSEPPE P. LEPORE, BHUVAN C. PANT et COOPER H. LANGFORI). Can J . Chem. 71, 2051 (1993). En se basant sur I'intensite totale de la lumikre entrant dans les recipients reactionnels, on a tvalue les rendements quantiques relatifs initiaux (@A ,,is) de disparition du 1-propanol et du propanal. On a comparC deux types de gComCtries pour les reacteurs photocatalytiques, un prototype commercial d'un rkacteur Ccoulement avec du TiO, immobilisC et un rkacteur conventionnel avec une dispersion de TiO,. Pour chacune des geometries, on a pu extrapoler un rendement quantique relatif maximal, @I,, .= I , pour le propanol pur ainsi que pour le propanal. On attribue les valeurs Clevtes des rendements quantiques j. une compCtition efficace, a une couverture elevee de la surface, de I'oxydation du substrat avec la recombinaison electron-trou. Pour chacun des reacteurs, on a identifie le propanal comme intermkdiaire primaire genCrC par le 1-propanol, mais les rendements en propanal sont systCmatiquement 10 fois plus lents que les pertes du I-propanol; ces observations indiquent que, avant la dCsorption, il existe j. la surface une voie efficace pour I'oxydation du propanal. L'inhibition de la reaction du I-propanol avec accumulation de produits a t t C attribuCe B une competition entre le rkactif et le produit pour les sites actifs presents B la surface du photocatalyseur. Ces propositions sont confirmCes par I'introduction de propanal dans la source. La convergence des rendements quantiques relatifs vers I'unitC pour les substances pures suggkre que ces valeurs correspondent au rendement quantique vrai, c'est-a-dire que, pour ces gComCtries, I'absorption par le TiO, de la lumikre entrant dans le rCacteur est efficace.[Tr...

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Bhuvan C. Pant

Evaluation of primary photoproduct quantum yields in fulvic acid

Spectroscopic and structural characterization of a Laurentian fulvic acid: notes on the origin of the color

Crystal and molecular structures of the (4-alkoxyphenyl)tellurium(IV) trihalides: (4-EtOPh)TeCl3, (4-EtOPh)TeBr3, and (4-MeOPh)TeI3

Kinetic Study of the Speciation of Copper (II) Bound to Humic Acid

Limiting quantum yield measurements for the disappearance of 1-propanol and propanal: an oxidative reaction study employing a TiO₂ based photoreactor

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Bhuvan C. Pant

Evaluation of primary photoproduct quantum yields in fulvic acid

Spectroscopic and structural characterization of a Laurentian fulvic acid: notes on the origin of the color

Crystal and molecular structures of the (4-alkoxyphenyl)tellurium(IV) trihalides: (4-EtOPh)TeCl3, (4-EtOPh)TeBr3, and (4-MeOPh)TeI3

Kinetic Study of the Speciation of Copper (II) Bound to Humic Acid

Limiting quantum yield measurements for the disappearance of 1-propanol and propanal: an oxidative reaction study employing a TiO2 based photoreactor

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Limiting quantum yield measurements for the disappearance of 1-propanol and propanal: an oxidative reaction study employing a TiO₂ based photoreactor