Ru nanoparticles supported on hydrophilic mesoporous carbon catalyzed low-temperature hydrodeoxygenation of microalgae oil to alkanes at aqueous-phase

“…S3d, consistent with previous literature [49,50]. The chemical content and structures of the other three catalysts (Rh/C, Ru/C and Pd/C) were also annotated according to the literatures [51][52][53][54], details of the four catalysts were shown in Table S2.…”

Electrocatalytic conversion of G-type and S-type phenolic compounds from different tree species in a heteropolyacid fluidized system

“…S3d, consistent with previous literature [49,50]. The chemical content and structures of the other three catalysts (Rh/C, Ru/C and Pd/C) were also annotated according to the literatures [51][52][53][54], details of the four catalysts were shown in Table S2.…”

Electrocatalytic conversion of G-type and S-type phenolic compounds from different tree species in a heteropolyacid fluidized system

“…The selectivity for C 17 is 88% and C 18 is 12%, indicating the DCO/DCO 2 pathway is preferable to HDO. 118 …”

“…The selectivity for C 17 is 88% and C 18 is 12%, indicating the DCO/DCO 2 pathway is preferable to HDO. 118 Another study used Ru/TiO 2 for the conversion of ethyl stearate under moderate temperature of 220 °C. Ru/TiO 2 catalyst performed 98.4% conversion with selectivity of C 17 and C 18 were 63.8% and 29.5%, respectively.…”

Selectivity of reaction pathways for green diesel production towards biojet fuel applications

“…[67] Biomass resources include various renewable and abundant materials such as cellulose, chitin, and others that can be utilized for chemical or fuel production. [68][69][70][71][72][73][74][75][76][77][78][79] The co-pyrolysis of plastic and biomass furnishes a beneficial strategy to possibly improve the quality of gas or liquid fuels, attenuate the carbon emissions, and aid the waste management (see Figure 9). The co-pyrolysis of pinewood and waste plastics such as PET, PP, and others has facilitated syngas production in the gas phase and suppressed char formation, in which the synergy between biomass and plastic enhanced the conversion efficiency and flammable gas yield.…”

Recent Progress in the Chemical Upcycling of Plastic Wastes