2021
DOI: 10.1016/j.apcatb.2020.119520
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Photocatalytic conversion of biomass-based monosaccharides to lactic acid by ultrathin porous oxygen doped carbon nitride

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Cited by 132 publications
(61 citation statements)
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“…The transition from conventional suspension processes to unassisted PEC systems using a high-performance perovskite light absorber for waste reforming provides a significant advancement towards addressing the major existing bottlenecks such as low product yield (both H 2 and oxidation products) and uncontrolled oxidation leading to CO 2 emission or poor selectivity of the organic products. [3][4][5][6]10] Our approach addresses these challenges, as Cu 30 Pd 70 |perovskite|Pt systems showcase product formation rates of up to ≈130 µmol cm −2 h −1 (normalized to geometrical irradiation area), which are ≈10 2 -10 4 times higher than previously reported photoreforming processes with established photocatalysts (Figure 5). Moreover, the high selectivity (60-90%) demonstrated by our systems towards the formation of a single value-added product, particularly for real-world substrates like PET bottles (≈90%), presents an attractive commercial advantage compared to typical photoreforming processes where only mixtures of non-utilizable products are obtained.…”
Section: Comparison With Representative Systemsmentioning
confidence: 99%
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“…The transition from conventional suspension processes to unassisted PEC systems using a high-performance perovskite light absorber for waste reforming provides a significant advancement towards addressing the major existing bottlenecks such as low product yield (both H 2 and oxidation products) and uncontrolled oxidation leading to CO 2 emission or poor selectivity of the organic products. [3][4][5][6]10] Our approach addresses these challenges, as Cu 30 Pd 70 |perovskite|Pt systems showcase product formation rates of up to ≈130 µmol cm −2 h −1 (normalized to geometrical irradiation area), which are ≈10 2 -10 4 times higher than previously reported photoreforming processes with established photocatalysts (Figure 5). Moreover, the high selectivity (60-90%) demonstrated by our systems towards the formation of a single value-added product, particularly for real-world substrates like PET bottles (≈90%), presents an attractive commercial advantage compared to typical photoreforming processes where only mixtures of non-utilizable products are obtained.…”
Section: Comparison With Representative Systemsmentioning
confidence: 99%
“…A dark mixed-waste solution can be utilized on the anodic side without blocking the light in the cathodic compartment, which is not possible in photocatalytic processes with homogenous or heterogenous photocatalysts. [6,10,11] This separation also enables a better optimization and rational development of the individual redox catalysts, which is challenging with semiconductor powders. Furthermore, the system can also be envisioned to perform other fuel forming reactions such as CO 2 reduction on the cathodic side instead of H 2 evolution, thereby increasing the product scope in future development.…”
Section: Comparison With Representative Systemsmentioning
confidence: 99%
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“…Another category is metal oxide nanoparticles, also called nanostructured semiconductors (i.e., titanium dioxide, silver oxide, zinc oxide, among others) [158][159][160][161]. These nanomaterials are widely investigated in catalytic systems with an emphasis on developing environmentally correct processes that can promote environmental recovery in environments contaminated with waste or effluents, and even in the search for sustainable development, producing value-added molecules from renewable sources [162][163][164][165].…”
Section: Relationship Between Nanotechnology and Sustainable Developmentmentioning
confidence: 99%
“…The peaks at 1250, 1330, 1413, 1575, and 1645 cm −1 correspond to the stretching vibration modes of C-N and C=N bonds of the heptazine heterocyclic ring (C 6 N 7 ) [51]. A broad peak located from 2800 to 3600 cm −1 signifies the existence of abundant -NH x [52]. As for D149 dye, the peak at 1128 cm −1 corresponds to a C-O bond.…”
Section: Regular Characterizationmentioning
confidence: 99%