A new design route was presented to fabricate cobalt aluminum-layered double hydroxide(CoAl-LDH)thin layers whichgrow on carbon spheres(CSs)through a growth method.The CoAl-LDH thin layers consist of nanoflakes with a...A new design route was presented to fabricate cobalt aluminum-layered double hydroxide(CoAl-LDH)thin layers whichgrow on carbon spheres(CSs)through a growth method.The CoAl-LDH thin layers consist of nanoflakes with a thickness of20nm.The galvanostatic charge-discharge test of the CoAl-LDH/CSs composite shows a great specific capacitance of1198F/g at1A/g(based on the mass of the CoAl-LDH/CSs composite)in6mol/L KOH solution,and the composite displays an impressive specificcapacitance of920F/g even at a high current density of10A/g.Moreover,the composite remains a specific capacitance of928F/gafter1000cycles at2A/g,and the specific capacitance retention is84%,indicating that the composite has high specific capacitance,excellent rate capability and good cycling stability in comparison to pristine CoAl-LDH.展开更多
In order to find the appropriate material to load selenium for higher performance of rechargeable Li-Se batteries,the resorcinol-formaldehyde resins derived monodisperse carbon spheres(RFCS)/Se composites were fabrica...In order to find the appropriate material to load selenium for higher performance of rechargeable Li-Se batteries,the resorcinol-formaldehyde resins derived monodisperse carbon spheres(RFCS)/Se composites were fabricated by the melting-diffusion method.The RFCS were obtained from initial carbonization of resorcinol-formaldehyde resins and subsequent KOH activation.Three kinds of samples of the RFCS/Se composites with different mass ratios were characterized by XRD,Raman spectroscopy,SEM,BET and EDS tests,which demonstrate that the samples with diverse mass fractions of selenium have distinct interior structure.The most suitable RFCS/Se composite is found to be the RFCS/Se-50 composite,which delivers a high reversible capacity of 643.9 mA·h/g after 100 cycles at current density of 0.2C.展开更多
The role ofcytochrome c in insect cell apoptosis has drawn considerable atten- tion and has been subject to considerable controversy. In Drosophila, the majority of studies have demonstrated that cytochrome c may not ...The role ofcytochrome c in insect cell apoptosis has drawn considerable atten- tion and has been subject to considerable controversy. In Drosophila, the majority of studies have demonstrated that cytochrome c may not be involved in apoptosis, although there are conflicting reports. Cytochrome c is not released from mitochondria into the cytosol and activation of the initiator caspase Dronc or effector caspase Drice is not associated with cytochrome c during apoptosis in Drosophila SL2 cells or BG2 cells. Cytochrome c failed to induce caspase activation and promote caspase activation in Drosophila cell lysates, but remarkably caused caspase activation in extracts from human cells. Knockdown of cytochrome c does not protect cells from apoptosis and over-expression of cytochrome c also does not promote apoptosis. Structural analysis has revealed that cytochrome c is not required for Dapaf-1 complex assembly. In Lepidoptera, the involvement of cytochrome c in apoptosis has been demonstrated by the accumulating evidence. Cytochrome c re- lease from mitochondria into cytosol has been observed in different cell lines such as Spodoptera frugiperda Sf9, Spodoptera litura S1-1 and Lymantria dispar LdFB. Silencing of cytochrome c expression significantly affected apoptosis and activation of caspase and the addition of cytochrome c to cell-free extracts results in caspase activation, suggesting the activation of caspase is dependent on cytochrome c. Although Apaf-1 has not been identified in Lepidoptera, the inhibitor of apoptosome formation can inhibit apoptosis and caspase activation. Cytochrome c may be exclusively required for Lepidoptera apoptosis.展开更多
基金Project(21471162) supported by the National Natural Science Foundation of ChinaProject(2015H6016) supported by the Science and Technology Project of Fujian Province,China
文摘A new design route was presented to fabricate cobalt aluminum-layered double hydroxide(CoAl-LDH)thin layers whichgrow on carbon spheres(CSs)through a growth method.The CoAl-LDH thin layers consist of nanoflakes with a thickness of20nm.The galvanostatic charge-discharge test of the CoAl-LDH/CSs composite shows a great specific capacitance of1198F/g at1A/g(based on the mass of the CoAl-LDH/CSs composite)in6mol/L KOH solution,and the composite displays an impressive specificcapacitance of920F/g even at a high current density of10A/g.Moreover,the composite remains a specific capacitance of928F/gafter1000cycles at2A/g,and the specific capacitance retention is84%,indicating that the composite has high specific capacitance,excellent rate capability and good cycling stability in comparison to pristine CoAl-LDH.
基金Project(21471162)supported by the National Natural Science Foundation of ChinaProject supported by the Recruitment Program of Global Youth Experts,ChinaProject(20130162120031)supported by Research Fund for the Doctoral Program of Higher Education of China
文摘In order to find the appropriate material to load selenium for higher performance of rechargeable Li-Se batteries,the resorcinol-formaldehyde resins derived monodisperse carbon spheres(RFCS)/Se composites were fabricated by the melting-diffusion method.The RFCS were obtained from initial carbonization of resorcinol-formaldehyde resins and subsequent KOH activation.Three kinds of samples of the RFCS/Se composites with different mass ratios were characterized by XRD,Raman spectroscopy,SEM,BET and EDS tests,which demonstrate that the samples with diverse mass fractions of selenium have distinct interior structure.The most suitable RFCS/Se composite is found to be the RFCS/Se-50 composite,which delivers a high reversible capacity of 643.9 mA·h/g after 100 cycles at current density of 0.2C.
文摘The role ofcytochrome c in insect cell apoptosis has drawn considerable atten- tion and has been subject to considerable controversy. In Drosophila, the majority of studies have demonstrated that cytochrome c may not be involved in apoptosis, although there are conflicting reports. Cytochrome c is not released from mitochondria into the cytosol and activation of the initiator caspase Dronc or effector caspase Drice is not associated with cytochrome c during apoptosis in Drosophila SL2 cells or BG2 cells. Cytochrome c failed to induce caspase activation and promote caspase activation in Drosophila cell lysates, but remarkably caused caspase activation in extracts from human cells. Knockdown of cytochrome c does not protect cells from apoptosis and over-expression of cytochrome c also does not promote apoptosis. Structural analysis has revealed that cytochrome c is not required for Dapaf-1 complex assembly. In Lepidoptera, the involvement of cytochrome c in apoptosis has been demonstrated by the accumulating evidence. Cytochrome c re- lease from mitochondria into cytosol has been observed in different cell lines such as Spodoptera frugiperda Sf9, Spodoptera litura S1-1 and Lymantria dispar LdFB. Silencing of cytochrome c expression significantly affected apoptosis and activation of caspase and the addition of cytochrome c to cell-free extracts results in caspase activation, suggesting the activation of caspase is dependent on cytochrome c. Although Apaf-1 has not been identified in Lepidoptera, the inhibitor of apoptosome formation can inhibit apoptosis and caspase activation. Cytochrome c may be exclusively required for Lepidoptera apoptosis.