电催化二氧化碳(CO_(2))还原被认为是将CO_(2)转化为可再生能源产品的一种有前途的方法。开发性能优异的电催化剂高效完成这一重要反应是关键。镍基催化剂广泛应用于电催化CO_(2)还原研究,但是,镍纳米颗粒经常表现较差的催化性能。在本...电催化二氧化碳(CO_(2))还原被认为是将CO_(2)转化为可再生能源产品的一种有前途的方法。开发性能优异的电催化剂高效完成这一重要反应是关键。镍基催化剂广泛应用于电催化CO_(2)还原研究,但是,镍纳米颗粒经常表现较差的催化性能。在本文中,通过在氮气气氛中高温热解镍基金属有机骨架(MOF)、尿素和炭黑混合物,获得了镍纳米颗粒负载于多孔碳氮中的催化材料(NiNPs-NC)。有趣的是,NiNPs-NC在H型和流动相电池中都表现出优异的CO_(2)电还原性能。在H型电解池和-0.67–-1.07 V vs.RHE(可逆氢电极)电位窗口内,NiNPs-NC催化CO_(2)还原为CO的法拉第效率大于90%,其中,在-0.87 V vs.RHE时,CO的法拉第效率约为100%。在流动相电解池和-0.50–-0.70 V vs.RHE电位窗口内,NiNPs-NC催化CO_(2)还原为CO的选择性大于95%。电化学阻抗谱图和塔菲尔斜率表征显示,NiNPs-NC的高催化活性归因于其在催化过程中的快速电荷转移。本文提供了一种制备高效CO_(2)电还原催化剂的方法。展开更多
Fifteen periods of Si/Si_(0.7)Ge_(0.3)multilayers(MLs)with various Si Ge thicknesses are grown on a 200 mm Si substrate using reduced pressure chemical vapor deposition(RPCVD).Several methods were utilized to characte...Fifteen periods of Si/Si_(0.7)Ge_(0.3)multilayers(MLs)with various Si Ge thicknesses are grown on a 200 mm Si substrate using reduced pressure chemical vapor deposition(RPCVD).Several methods were utilized to characterize and analyze the ML structures.The high resolution transmission electron microscopy(HRTEM)results show that the ML structure with 20 nm Si_(0.7)Ge_(0.3)features the best crystal quality and no defects are observed.Stacked Si_(0.7)Ge_(0.3)ML structures etched by three different methods were carried out and compared,and the results show that they have different selectivities and morphologies.In this work,the fabrication process influences on Si/Si Ge MLs are studied and there are no significant effects on the Si layers,which are the channels in lateral gate all around field effect transistor(L-GAAFET)devices.For vertically-stacked dynamic random access memory(VS-DRAM),it is necessary to consider the dislocation caused by strain accumulation and stress release after the number of stacked layers exceeds the critical thickness.These results pave the way for the manufacture of high-performance multivertical-stacked Si nanowires,nanosheet L-GAAFETs,and DRAM devices.展开更多
SiGe spheres with different diameters are successfully fabricated on a virtual SiGe template using a laser irradiation method.The results from scanning electron microscopy and micro-Raman spectroscopy reveal that the ...SiGe spheres with different diameters are successfully fabricated on a virtual SiGe template using a laser irradiation method.The results from scanning electron microscopy and micro-Raman spectroscopy reveal that the diameter and Ge composition of the SiGe spheres can be well controlled by adjusting the laser energy density.In addition,the transmission electron microscopy results show that Ge composition inside the SiGe spheres is almost uniform in a well-defined,nearly spherical outline.As a convenient method to prepare sphere-shaped SiGe micro/nanostructures with tunable Ge composition and size,this technique is expected to be useful for SiGe-based material growth and micro/optoelectronic device fabrication.展开更多
[Objectives]This study aimed to study the effect of ethephon treatment on the growth of two main grape varieties Kyoho and Shine-Muscat.[Methods]Two-year-old Kyoho and Shine-Muscat grape plants transplanted in the fil...[Objectives]This study aimed to study the effect of ethephon treatment on the growth of two main grape varieties Kyoho and Shine-Muscat.[Methods]Two-year-old Kyoho and Shine-Muscat grape plants transplanted in the film-covered steel-framed greenhouse were used as the test materials.They were pruned horizontally and linearly.In the late growth period,the new shoots were sprayed with ethephon(1500×).During the germination period,10 plants were randomly selected for each variety to investigate the germination situation.Before flowering,20 new shoots with uniform growth were randomly selected for each variety to investigate the growth.During the fruit maturity period,10 clusters of fruits were randomly selected for each variety to determine the related indices of fruit quality.[Results]After the treatment with ethephon,the germination,new shoot growth and fruit quality differed between the two varieties.Overall,the thickness of main stem,main vine and new shoot of Shine-Muscat was greater than that of Kyoho,and the length of new shoot of Kyoho was significantly greater than that of Shine-Muscat.[Conclusions]The growth of Shine-Muscat was more robust.There was little difference in the ear weight of natural fruit setting between the two varieties.Shine-Muscat showed high sugar and low acid contents than Kyoho.展开更多
Zika virus(ZIKV)evolves non-structural proteins to evade immune response and ensure efficient replication in the host cells.Cholesterol metabolic enzyme 7-dehydrocholesterol reductase(DHCR7)was recently reported to im...Zika virus(ZIKV)evolves non-structural proteins to evade immune response and ensure efficient replication in the host cells.Cholesterol metabolic enzyme 7-dehydrocholesterol reductase(DHCR7)was recently reported to impact innate immune responses in ZIKV infection.However,the vital non-structural protein and mechanisms involved in DHCR7-mediated viral evasion are not well elucidated.In this study,we demonstrated that ZIKV infection facilitated DHCR7 expression.Notably,the upregulated DHCR7 in turn facilitated ZIKV infection and blocking DHCR7 suppressed ZIKV infection.Mechanically,ZIKV non-structural protein 4B(NS4B)interacted with DHCR7 to induce DHCR7 expression.Moreover,DHCR7 inhibited TANK-binding kinase 1(TBK1)and interferon regulatory factor 3(IRF3)phosphorylation,which resulted in the reduction of interferon-beta(IFN-β)and interferon-stimulated genes(ISGs)productions.Therefore,we propose that ZIKV NS4B binds to DHCR7 to repress TBK1 and IRF3 activation,which in turn inhibits IFN-βand ISGs,and thereby facilitating ZIKV evasion.This study broadens the insights on how viral non-structural proteins antagonize innate immunity to facilitate viral infection via cholesterol metabolic enzymes and intermediates.展开更多
Caries is considered to be the most prevalent non-communicable disease in humans, mainly deriving from acidogenic bacterial biofilm and resulting in the demineralization and decomposition of hard dental tissue. Herein...Caries is considered to be the most prevalent non-communicable disease in humans, mainly deriving from acidogenic bacterial biofilm and resulting in the demineralization and decomposition of hard dental tissue. Herein, a composite responsive foam brace loaded with magnesium organic framework (MPC) is designed for caries prevention and tooth remineralization. MPC can intelligently release organic antibacterial molecules (gallic acid) and mineralized ions (Mg2+, Ca2+ and PO43 ) under acidic conditions (pH < 5.5) of biofilm infection, regulating pH and killing bacteria. Additionally, due to the excellent photothermal conversion efficiency, MPC can further enhance the destruction of bacterial biofilm by inhibiting virulence genes and destroying bacterial adhesion under near-infrared light irradiation (808 nm). More importantly, MPC can not only reverse the cariogenic environment at both pH and microbial levels, but also promote self-healing of demineralized teeth in terms of both the micro-structure and mechanical properties.展开更多
文摘电催化二氧化碳(CO_(2))还原被认为是将CO_(2)转化为可再生能源产品的一种有前途的方法。开发性能优异的电催化剂高效完成这一重要反应是关键。镍基催化剂广泛应用于电催化CO_(2)还原研究,但是,镍纳米颗粒经常表现较差的催化性能。在本文中,通过在氮气气氛中高温热解镍基金属有机骨架(MOF)、尿素和炭黑混合物,获得了镍纳米颗粒负载于多孔碳氮中的催化材料(NiNPs-NC)。有趣的是,NiNPs-NC在H型和流动相电池中都表现出优异的CO_(2)电还原性能。在H型电解池和-0.67–-1.07 V vs.RHE(可逆氢电极)电位窗口内,NiNPs-NC催化CO_(2)还原为CO的法拉第效率大于90%,其中,在-0.87 V vs.RHE时,CO的法拉第效率约为100%。在流动相电解池和-0.50–-0.70 V vs.RHE电位窗口内,NiNPs-NC催化CO_(2)还原为CO的选择性大于95%。电化学阻抗谱图和塔菲尔斜率表征显示,NiNPs-NC的高催化活性归因于其在催化过程中的快速电荷转移。本文提供了一种制备高效CO_(2)电还原催化剂的方法。
基金supported in part by the Strategic Priority Research Program of the Chinese Academy of Sciences (Project ID.XDA0330300)in part by Innovation Program for Quantum Science and Technology (Project ID.2021ZD0302301)in part by the Youth Innovation Promotion Association of CAS (Project ID.2020037)。
文摘Fifteen periods of Si/Si_(0.7)Ge_(0.3)multilayers(MLs)with various Si Ge thicknesses are grown on a 200 mm Si substrate using reduced pressure chemical vapor deposition(RPCVD).Several methods were utilized to characterize and analyze the ML structures.The high resolution transmission electron microscopy(HRTEM)results show that the ML structure with 20 nm Si_(0.7)Ge_(0.3)features the best crystal quality and no defects are observed.Stacked Si_(0.7)Ge_(0.3)ML structures etched by three different methods were carried out and compared,and the results show that they have different selectivities and morphologies.In this work,the fabrication process influences on Si/Si Ge MLs are studied and there are no significant effects on the Si layers,which are the channels in lateral gate all around field effect transistor(L-GAAFET)devices.For vertically-stacked dynamic random access memory(VS-DRAM),it is necessary to consider the dislocation caused by strain accumulation and stress release after the number of stacked layers exceeds the critical thickness.These results pave the way for the manufacture of high-performance multivertical-stacked Si nanowires,nanosheet L-GAAFETs,and DRAM devices.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.62004218,61991441,and 61804176)the Strategic Priority Research Program of Chinese Academy of Sciences(Grant No.XDB01000000)the Youth Innovation Promotion Association of Chinese Academy of Sciences(Grant No.2021005).
文摘SiGe spheres with different diameters are successfully fabricated on a virtual SiGe template using a laser irradiation method.The results from scanning electron microscopy and micro-Raman spectroscopy reveal that the diameter and Ge composition of the SiGe spheres can be well controlled by adjusting the laser energy density.In addition,the transmission electron microscopy results show that Ge composition inside the SiGe spheres is almost uniform in a well-defined,nearly spherical outline.As a convenient method to prepare sphere-shaped SiGe micro/nanostructures with tunable Ge composition and size,this technique is expected to be useful for SiGe-based material growth and micro/optoelectronic device fabrication.
基金Fundamental Research Fund of Guangxi Academy of Agricultural Sciences(Gui Nong Ke 2020YM50)Key Research and Development Project of Science and Technology Bureau of Qingxiu District(2020007)+1 种基金Agricultural Park Project of Science and Technology Bureau of Qingxiu District(2019NO2)Nanning Comprehensive Test Station of National Grape Industry Technology System(CARS-29-20).
文摘[Objectives]This study aimed to study the effect of ethephon treatment on the growth of two main grape varieties Kyoho and Shine-Muscat.[Methods]Two-year-old Kyoho and Shine-Muscat grape plants transplanted in the film-covered steel-framed greenhouse were used as the test materials.They were pruned horizontally and linearly.In the late growth period,the new shoots were sprayed with ethephon(1500×).During the germination period,10 plants were randomly selected for each variety to investigate the germination situation.Before flowering,20 new shoots with uniform growth were randomly selected for each variety to investigate the growth.During the fruit maturity period,10 clusters of fruits were randomly selected for each variety to determine the related indices of fruit quality.[Results]After the treatment with ethephon,the germination,new shoot growth and fruit quality differed between the two varieties.Overall,the thickness of main stem,main vine and new shoot of Shine-Muscat was greater than that of Kyoho,and the length of new shoot of Kyoho was significantly greater than that of Shine-Muscat.[Conclusions]The growth of Shine-Muscat was more robust.There was little difference in the ear weight of natural fruit setting between the two varieties.Shine-Muscat showed high sugar and low acid contents than Kyoho.
基金supported by the National Natural Science Foundation of China(81730061,81802008)the Guangdong Basic and Applied Basic Research Foundation(2021A1515011272).
文摘Zika virus(ZIKV)evolves non-structural proteins to evade immune response and ensure efficient replication in the host cells.Cholesterol metabolic enzyme 7-dehydrocholesterol reductase(DHCR7)was recently reported to impact innate immune responses in ZIKV infection.However,the vital non-structural protein and mechanisms involved in DHCR7-mediated viral evasion are not well elucidated.In this study,we demonstrated that ZIKV infection facilitated DHCR7 expression.Notably,the upregulated DHCR7 in turn facilitated ZIKV infection and blocking DHCR7 suppressed ZIKV infection.Mechanically,ZIKV non-structural protein 4B(NS4B)interacted with DHCR7 to induce DHCR7 expression.Moreover,DHCR7 inhibited TANK-binding kinase 1(TBK1)and interferon regulatory factor 3(IRF3)phosphorylation,which resulted in the reduction of interferon-beta(IFN-β)and interferon-stimulated genes(ISGs)productions.Therefore,we propose that ZIKV NS4B binds to DHCR7 to repress TBK1 and IRF3 activation,which in turn inhibits IFN-βand ISGs,and thereby facilitating ZIKV evasion.This study broadens the insights on how viral non-structural proteins antagonize innate immunity to facilitate viral infection via cholesterol metabolic enzymes and intermediates.
基金the National Natural Science Foundation of China(No.31860263 to Xiaolei WangNo.82160194 and No.81960492 to Lan Liao)+3 种基金Key Youth Project of Jiangxi Province(20202ACB216002 to Xiaolei Wang)Key Research and Development Program of Jiangxi Province(20212BBG73004 to Xiaolei Wang20212BBG73022 to Lan Liao)Natural Science Foundation of Jiangxi Province(No.20181ACB20022 to Lan Liao).
文摘Caries is considered to be the most prevalent non-communicable disease in humans, mainly deriving from acidogenic bacterial biofilm and resulting in the demineralization and decomposition of hard dental tissue. Herein, a composite responsive foam brace loaded with magnesium organic framework (MPC) is designed for caries prevention and tooth remineralization. MPC can intelligently release organic antibacterial molecules (gallic acid) and mineralized ions (Mg2+, Ca2+ and PO43 ) under acidic conditions (pH < 5.5) of biofilm infection, regulating pH and killing bacteria. Additionally, due to the excellent photothermal conversion efficiency, MPC can further enhance the destruction of bacterial biofilm by inhibiting virulence genes and destroying bacterial adhesion under near-infrared light irradiation (808 nm). More importantly, MPC can not only reverse the cariogenic environment at both pH and microbial levels, but also promote self-healing of demineralized teeth in terms of both the micro-structure and mechanical properties.
