Biomass valorization by photoreforming approach provides a promising and alternative strategy to generate value-added chemicals and fuels.In this work,we demonstrate the selective production of lactic acid from glu-co...Biomass valorization by photoreforming approach provides a promising and alternative strategy to generate value-added chemicals and fuels.In this work,we demonstrate the selective production of lactic acid from glu-cose photoreforming over pristine graphitic carbon nitride(g-C_(3) N_(4))photocatalyst.Control experiments screen the best condition for the highest yield of lactic acid,including modulating pH,catalyst loading,and reaction time.100%glucose conversion is achieved along with almost 100%lactic acid yield under the optimized con-dition.Density functional theory(DFT)calculations reveal that the rate-determining step(RDS)of the overall reaction on g-C_(3) N_(4) is the conversion of pyruvaldehyde,where an electron transfer takes place.This present work provides experimental insights and theoretical understanding for selective lactic acid production from biomass photoreforming.展开更多
基金Supported by the Canada First Research Excellence Fund(CFREF),Fonds de recherche du Québec-Nature et technologies(FRQNT)New Researchers Fund(2021-NC-283234)NSERC Discovery Grant(RGPIN-2020-04960)Canada Research Chair(950-23288).
文摘Biomass valorization by photoreforming approach provides a promising and alternative strategy to generate value-added chemicals and fuels.In this work,we demonstrate the selective production of lactic acid from glu-cose photoreforming over pristine graphitic carbon nitride(g-C_(3) N_(4))photocatalyst.Control experiments screen the best condition for the highest yield of lactic acid,including modulating pH,catalyst loading,and reaction time.100%glucose conversion is achieved along with almost 100%lactic acid yield under the optimized con-dition.Density functional theory(DFT)calculations reveal that the rate-determining step(RDS)of the overall reaction on g-C_(3) N_(4) is the conversion of pyruvaldehyde,where an electron transfer takes place.This present work provides experimental insights and theoretical understanding for selective lactic acid production from biomass photoreforming.