Photocatalytic H_(2) evolution from seawater splitting presents a promising approach to tackle the fossil energy crisis and mitigate carbon emission due to the abundant source of seawater and sunlight on the earth.How...Photocatalytic H_(2) evolution from seawater splitting presents a promising approach to tackle the fossil energy crisis and mitigate carbon emission due to the abundant source of seawater and sunlight on the earth.However,the development of efficient photocatalysts for seawater splitting remains a formidable challenge.Herein,a 2D/2D ZnIn_(2)S_(4)/WO_(3)(ZIS/WO_(3))heterojunction nanostructure is fabricated to efficiently separate the photoinduced carriers by steering electron transfer from the conduction band minimum of WO_(3) to the valence band maximum of ZIS via constructing internal electric field.Subsequently,plasmonic Au nanoparticles(NPs)as a novel photosensitizer and a reduction cocatalyst are anchored on ZIS/WO_(3) surface to further enhance the optical absorption of ZIS/WO_(3) heterojunction and accelerate the catalytic conversion.The obtained Au/ZIS/WO_(3) photocatalyst exhibits an outstanding H_(2) evolution rate of 2610.6 or 3566.3μmol g^(-1)h~(-1)from seawater splitting under visible or full-spectrum light irradiation,respectively.These rates represent an impressive increase of approximately 7.3-and 6,6-fold compared to those of ZIS under the illumination of the same light source.The unique 2D/2D structure,internal electric field,and plasmonic metal modification together boost the photocatalytic H_(2) evolution rate of Au/ZIS/WO_(3),making it even comparable to H_(2) evolution from pure water splitting.The present work sheds light on the development of efficient photocatalysts for seawater splitting.展开更多
[Objectives]The paper was to clone and analyze bioinformatics of ndk gene from Vibrio alginolyticus.[Methods]A pair of specific primers was designed based on the ndk gene sequence of V.alginolyticus HY9901.The full le...[Objectives]The paper was to clone and analyze bioinformatics of ndk gene from Vibrio alginolyticus.[Methods]A pair of specific primers was designed based on the ndk gene sequence of V.alginolyticus HY9901.The full length of ndk gene was amplified by PCR and bioinformatics analysis was performed.MEGA 5.0 software was used to construct NDK phylogenetic tree by neighbor-joining method.SWISS-MODEL program was used to obtain the three-dimensional structural model of single subunit from NDK protein.[Results]The ndk gene,molecular structural formula C702H1094N192O214S7,was 426 bp in total,encoding 141 amino acids,with the theoretical molecular weight of 15.87199 kD and the theoretical pI value of 5.13.The prediction results of protein subcellular localization,SignalP 5.0,TMHMM Server 2.0 and SoftBerry-Psite showed that NDK mainly existed in the cytoplasm,and the protein was unstable and hydrophobic.There was neither signal peptide cleavage site,nor transmembrane region and KEGG metabolic pathway.The amino acid sequence had two protein kinase C phosphorylation sites,a casein kinaseⅡphosphorylation site,a N-myristoylation site,three microbody C-terminal target signal sites,and a nucleoside diphosphate kinase active site.Homology analysis showed that the NDK of V.alginolyticus had high homology with that of V.diabolicus,with a similarity of 98.58%.Analysis of the structural functional domain revealed that the protein had one NDK structural functional domain.The prediction results of secondary structure showed that theα-helix,random coil,β-sheet and extended strand accounted for 53.19%,28.37%,7.09%and 11.35%,respectively.Analysis of NDK protein via STRING database demonstrated that the proteins interacting with NDK protein were NrdA,NrdB,GmK,CmK,TmK,PyrG,PyrH,RelA,FolE and SpoT.[Conclusions]The study plays a positive role in the prevention and control of vibriosis and the improvement of the current aquaculture environment.展开更多
基金supported by the National Natural Science Foundation of China(21872104,21501131,21978216 and 22272082)the Natural Science Foundation of Tianjin for Distinguished Young Scholar(20JCJQJC00150)the Analytical&Testing Center of Tiangong University for PL work。
文摘Photocatalytic H_(2) evolution from seawater splitting presents a promising approach to tackle the fossil energy crisis and mitigate carbon emission due to the abundant source of seawater and sunlight on the earth.However,the development of efficient photocatalysts for seawater splitting remains a formidable challenge.Herein,a 2D/2D ZnIn_(2)S_(4)/WO_(3)(ZIS/WO_(3))heterojunction nanostructure is fabricated to efficiently separate the photoinduced carriers by steering electron transfer from the conduction band minimum of WO_(3) to the valence band maximum of ZIS via constructing internal electric field.Subsequently,plasmonic Au nanoparticles(NPs)as a novel photosensitizer and a reduction cocatalyst are anchored on ZIS/WO_(3) surface to further enhance the optical absorption of ZIS/WO_(3) heterojunction and accelerate the catalytic conversion.The obtained Au/ZIS/WO_(3) photocatalyst exhibits an outstanding H_(2) evolution rate of 2610.6 or 3566.3μmol g^(-1)h~(-1)from seawater splitting under visible or full-spectrum light irradiation,respectively.These rates represent an impressive increase of approximately 7.3-and 6,6-fold compared to those of ZIS under the illumination of the same light source.The unique 2D/2D structure,internal electric field,and plasmonic metal modification together boost the photocatalytic H_(2) evolution rate of Au/ZIS/WO_(3),making it even comparable to H_(2) evolution from pure water splitting.The present work sheds light on the development of efficient photocatalysts for seawater splitting.
基金Supported by Outstanding Graduate Entering Laboratory Project of College of Fisheries,Guangdong Ocean UniversityNational Natural Science Foundationof China(32073015)+2 种基金Natural Science Foundation of Guangdong Province(2021A1515011078)Undergraduate Innovation and Entrepreneurship Train-ing Program of Guangdong Ocean University(CXXL2022005)UndergraduateInnovation Team of Guangdong Ocean University(CCTD201802)。
文摘[Objectives]The paper was to clone and analyze bioinformatics of ndk gene from Vibrio alginolyticus.[Methods]A pair of specific primers was designed based on the ndk gene sequence of V.alginolyticus HY9901.The full length of ndk gene was amplified by PCR and bioinformatics analysis was performed.MEGA 5.0 software was used to construct NDK phylogenetic tree by neighbor-joining method.SWISS-MODEL program was used to obtain the three-dimensional structural model of single subunit from NDK protein.[Results]The ndk gene,molecular structural formula C702H1094N192O214S7,was 426 bp in total,encoding 141 amino acids,with the theoretical molecular weight of 15.87199 kD and the theoretical pI value of 5.13.The prediction results of protein subcellular localization,SignalP 5.0,TMHMM Server 2.0 and SoftBerry-Psite showed that NDK mainly existed in the cytoplasm,and the protein was unstable and hydrophobic.There was neither signal peptide cleavage site,nor transmembrane region and KEGG metabolic pathway.The amino acid sequence had two protein kinase C phosphorylation sites,a casein kinaseⅡphosphorylation site,a N-myristoylation site,three microbody C-terminal target signal sites,and a nucleoside diphosphate kinase active site.Homology analysis showed that the NDK of V.alginolyticus had high homology with that of V.diabolicus,with a similarity of 98.58%.Analysis of the structural functional domain revealed that the protein had one NDK structural functional domain.The prediction results of secondary structure showed that theα-helix,random coil,β-sheet and extended strand accounted for 53.19%,28.37%,7.09%and 11.35%,respectively.Analysis of NDK protein via STRING database demonstrated that the proteins interacting with NDK protein were NrdA,NrdB,GmK,CmK,TmK,PyrG,PyrH,RelA,FolE and SpoT.[Conclusions]The study plays a positive role in the prevention and control of vibriosis and the improvement of the current aquaculture environment.