Density functional theory(DFT)calculations have been performed to investigate the hydrogen dissociation and diffusion on Mg(0001)surface with Ni incorporating at various locations.The results show that Ni atom is pref...Density functional theory(DFT)calculations have been performed to investigate the hydrogen dissociation and diffusion on Mg(0001)surface with Ni incorporating at various locations.The results show that Ni atom is preferentially located inside Mg matrix rather than in/over the topmost surface.Further calculations reveal that Ni atom locating in/over the topmost Mg(0001)surface exhibits excellent catalytic effect on hydrogen dissociation with an energy barrier of less than 0.05 eV.In these cases,the rate-limiting step has been converted from hydrogen dissociation to surface diffusion.In contrast,Ni doping inside Mg bulk not only does little help to hydrogen dissociation but also exhibits detrimental effect on hydrogen diffusion.Therefore,it is crucial to stabilize the Ni atom on the surface or in the topmost layer of Mg(0001)surface to maintain its catalytic effect.For all the case of Ni-incorporated Mg(0001)surfaces,the hydrogen atom prefers firstly immigrate along the surface and then penetrate into the bulk.It is expected that the theoretical findings in the present study could offer fundamental guidance to future designing on efficient Mg-based hydrogen storage materials.展开更多
Clathrin-and caveolae-mediated endocytosis are the most commonly used pathways for the internalization of cell membrane receptors.However,due to their dimensions are within the diffraction limit,traditional fluorescen...Clathrin-and caveolae-mediated endocytosis are the most commonly used pathways for the internalization of cell membrane receptors.However,due to their dimensions are within the diffraction limit,traditional fluorescence microscopy cannot distinguish them and little is known about their interactions underneath cell membrane.In this study,we proposed the line-switching scanning imaging mode for dual-color triplet-state relaxation(T-Rex)stimulated emission depletion(STED)super-resolution microscopy.With this line-switching mode,the cross-talk between the two channels,the side effects from pulse picker and image drift in frame scanning mode can be effectively eliminated.The dual-color super-resolution imaging results in mixed fluorescent beads validated the excellent performance.With this super-resolution microscope,not only the ring-shaped structure of clathrin and caveolae endocytic vesicles,but also their semi-fused structures underneath the cell membrane were distinguished clearly.The resultant infor-mation will greatly facilitate the study of clathrin-and caveolae-mediated receptor endocytosis and signaling process and also our home-built dual-color T-Rex STED microscope with this line-switching imaging mode provides a precise and convenient way to study subcellular-scale protein interactions.展开更多
This paper summarized the nutritional value,use,botany characteristics,cultivation status and common varieties of passion fruit(Passiflora edulis Sims).It aims to provide a basis for the cultivation and development of...This paper summarized the nutritional value,use,botany characteristics,cultivation status and common varieties of passion fruit(Passiflora edulis Sims).It aims to provide a basis for the cultivation and development of passion fruit.展开更多
基金the financial support from the National Natural Science Foundation of China(Grant Nos.U1610103,21805169 and 21978156)Shandong Provincial Natural Science Foundation,China(Grant No.ZR2018BB069)Project of Shandong Province Higher Educational Young Innovative Talent Introduction and Cultivation Team(Hydrogen energy chemistry innovation team)。
文摘Density functional theory(DFT)calculations have been performed to investigate the hydrogen dissociation and diffusion on Mg(0001)surface with Ni incorporating at various locations.The results show that Ni atom is preferentially located inside Mg matrix rather than in/over the topmost surface.Further calculations reveal that Ni atom locating in/over the topmost Mg(0001)surface exhibits excellent catalytic effect on hydrogen dissociation with an energy barrier of less than 0.05 eV.In these cases,the rate-limiting step has been converted from hydrogen dissociation to surface diffusion.In contrast,Ni doping inside Mg bulk not only does little help to hydrogen dissociation but also exhibits detrimental effect on hydrogen diffusion.Therefore,it is crucial to stabilize the Ni atom on the surface or in the topmost layer of Mg(0001)surface to maintain its catalytic effect.For all the case of Ni-incorporated Mg(0001)surfaces,the hydrogen atom prefers firstly immigrate along the surface and then penetrate into the bulk.It is expected that the theoretical findings in the present study could offer fundamental guidance to future designing on efficient Mg-based hydrogen storage materials.
基金This work was supported by the CAS Key Technology Talent Programthe Instrument Incubation Program of Institute of Chemistry,CAS+3 种基金the National Natural Science Foundation of China(21735006,32000873,22077124 and 91939301)Beijing Natural Science Foundation(5184032)the China Postdoctoral Science Foundation(2019M650718)the Chinese Academy of Sciences.
文摘Clathrin-and caveolae-mediated endocytosis are the most commonly used pathways for the internalization of cell membrane receptors.However,due to their dimensions are within the diffraction limit,traditional fluorescence microscopy cannot distinguish them and little is known about their interactions underneath cell membrane.In this study,we proposed the line-switching scanning imaging mode for dual-color triplet-state relaxation(T-Rex)stimulated emission depletion(STED)super-resolution microscopy.With this line-switching mode,the cross-talk between the two channels,the side effects from pulse picker and image drift in frame scanning mode can be effectively eliminated.The dual-color super-resolution imaging results in mixed fluorescent beads validated the excellent performance.With this super-resolution microscope,not only the ring-shaped structure of clathrin and caveolae endocytic vesicles,but also their semi-fused structures underneath the cell membrane were distinguished clearly.The resultant infor-mation will greatly facilitate the study of clathrin-and caveolae-mediated receptor endocytosis and signaling process and also our home-built dual-color T-Rex STED microscope with this line-switching imaging mode provides a precise and convenient way to study subcellular-scale protein interactions.
文摘This paper summarized the nutritional value,use,botany characteristics,cultivation status and common varieties of passion fruit(Passiflora edulis Sims).It aims to provide a basis for the cultivation and development of passion fruit.