2021
DOI: 10.1016/j.ijhydene.2020.02.192
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Design of efficient photocatalytic processes for the production of hydrogen from biomass derived substrates

Abstract: The photoreforming of glucose has been studied over TiO2 photocatalyst with different photoreactors, focusing on the effect of the reaction conditions: temperature, pressure, catalyst and substrate concentration. The effect of pressure was particularly significant, decreasing hydrogen evolution rate, but improving the conversion of the substrate. Furthermore, pressure moderately higher than ambient allowed to operate at high temperature (80°C), boosting hydrogen productivity. Most experiments were carried out … Show more

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Cited by 43 publications
(23 citation statements)
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“…The thorough evaluation of both reduction and oxidation products will facilitate the establishment of state-ofthe-art values for different materials and synthetic conditions leading to their integration in continuous flow reactors. [451,452] 3) To maintain a constant production of high-added value chemicals and avoid the decrease in the H 2 production and the complete oxidation of the biomass-derive organic molecule to CO 2 , aliquots of the hole scavenger shall be added periodically to the reaction media. The intervals will strongly depend in the electron-hole pair generation ability of the employed semiconductor as well as the reaction conditions.…”
Section: Photoelectrochemical Oxidation and Hydrogen Productionmentioning
confidence: 99%
“…The thorough evaluation of both reduction and oxidation products will facilitate the establishment of state-ofthe-art values for different materials and synthetic conditions leading to their integration in continuous flow reactors. [451,452] 3) To maintain a constant production of high-added value chemicals and avoid the decrease in the H 2 production and the complete oxidation of the biomass-derive organic molecule to CO 2 , aliquots of the hole scavenger shall be added periodically to the reaction media. The intervals will strongly depend in the electron-hole pair generation ability of the employed semiconductor as well as the reaction conditions.…”
Section: Photoelectrochemical Oxidation and Hydrogen Productionmentioning
confidence: 99%
“…Ramis et al studied the use of other noble metal cocatalysts on TiO 2 including Au [40]. TiO 2 with Pt and Pd exhibited a higher photocatalytic activity than that with Au.…”
Section: Au/tiomentioning
confidence: 99%
“…Energy band positions, the work functions of the noble metals, and the electrochemical potentials of the redox couples involved. Reprinted with permission from Ramis et al[40] (Copyright 2020 Elsevier) Proposed mechanism of cellulose photoreformation into H 2 over a NiS/TiO 2 and b NiOx/TiO 2 . Reprinted with permission from Hao et al[41] and Zhang et al[42] (Copyright 2018 ChemPubSoc Europe and Royal Society Chemistry)…”
mentioning
confidence: 99%
“…The results have been compared with the H 2 market price (mp) for the most interesting catalytic systems we tested or developed until now: bare P25, 1.0 wt % Cu/P25 and a 0.1 mol % Pt/P25, as reported elsewhere [32,50]. The highest value of hydrogen productivity was obtained with 0.1 mol % Pt/P25 (14.70 mol/kg cat h), which is a considerably high production rate with respect to previous studies [8,[10][11][12].…”
Section: Basic Cost Assessmentmentioning
confidence: 99%
“…The optimum operating conditions were set based on several screening tests conditions [32,50,67]: 80 • C, 4 bar, glucose concentration 5g/L, photocatalyst concentration 0.25 g/L.…”
Section: Activity Testingmentioning
confidence: 99%