Ceria-based heterostructure composite(CHC)has become a new stream to develop advanced low-temperature(300–600°C)solid oxide fuel cells(LTSOFCs)with excellent power outputs at 1000 mW cm−2 level.The state-ofthe-a...Ceria-based heterostructure composite(CHC)has become a new stream to develop advanced low-temperature(300–600°C)solid oxide fuel cells(LTSOFCs)with excellent power outputs at 1000 mW cm−2 level.The state-ofthe-art ceria–carbonate or ceria–semiconductor heterostructure composites have made the CHC systems significantly contribute to both fundamental and applied science researches of LTSOFCs;however,a deep scientific understanding to achieve excellent fuel cell performance and high superionic conduction is still missing,which may hinder its wide application and commercialization.This review aims to establish a new fundamental strategy for superionic conduction of the CHC materials and relevant LTSOFCs.This involves energy band and built-in-field assisting superionic conduction,highlighting coupling effect among the ionic transfer,band structure and alignment impact.Furthermore,theories of ceria–carbonate,e.g.,space charge and multi-ion conduction,as well as new scientific understanding are discussed and presented for functional CHC materials.展开更多
BACKGROUND Glioma is the most common primary tumor in the brain originating from glial cells.In spite of extensive research,the overall survival rate is not enhanced.A number of published articles observed differentia...BACKGROUND Glioma is the most common primary tumor in the brain originating from glial cells.In spite of extensive research,the overall survival rate is not enhanced.A number of published articles observed differentially circulating levels of cytokines in glioma.Interleukin-6(IL-6)protein coded by IL-6 gene is regulated by the immune system and it has been found to have a significant role in progression and apoptosis resistance of glioma.AIM To review the role of circulatory IL-6 in the development and progression of glioma and its utility as a biomarker.METHODS Preferred Reporting Items for Systematic Reviews and Meta-analysis(PRISMA)guidelines were applied to filter the relevant studies based on inclusion and exclusion criteria.We used a combination of keywords and the Reference Citation Analysis(RCA)tool to search the potential studies and performed data extraction from selected studies.RESULTS The published results were inconsistent;however,most studies showed a significantly higher IL-6 level in glioma cases as compared to controls.Comparative IL-6 level among the different grades of glioma showed a higher level with low-grade gliomas and lower level with high-grade gliomas.CONCLUSION IL-6 level significantly differed between cases and controls,and among different cancer stages,which shows its potential as a diagnostic and prognostic marker.展开更多
文摘Ceria-based heterostructure composite(CHC)has become a new stream to develop advanced low-temperature(300–600°C)solid oxide fuel cells(LTSOFCs)with excellent power outputs at 1000 mW cm−2 level.The state-ofthe-art ceria–carbonate or ceria–semiconductor heterostructure composites have made the CHC systems significantly contribute to both fundamental and applied science researches of LTSOFCs;however,a deep scientific understanding to achieve excellent fuel cell performance and high superionic conduction is still missing,which may hinder its wide application and commercialization.This review aims to establish a new fundamental strategy for superionic conduction of the CHC materials and relevant LTSOFCs.This involves energy band and built-in-field assisting superionic conduction,highlighting coupling effect among the ionic transfer,band structure and alignment impact.Furthermore,theories of ceria–carbonate,e.g.,space charge and multi-ion conduction,as well as new scientific understanding are discussed and presented for functional CHC materials.
文摘BACKGROUND Glioma is the most common primary tumor in the brain originating from glial cells.In spite of extensive research,the overall survival rate is not enhanced.A number of published articles observed differentially circulating levels of cytokines in glioma.Interleukin-6(IL-6)protein coded by IL-6 gene is regulated by the immune system and it has been found to have a significant role in progression and apoptosis resistance of glioma.AIM To review the role of circulatory IL-6 in the development and progression of glioma and its utility as a biomarker.METHODS Preferred Reporting Items for Systematic Reviews and Meta-analysis(PRISMA)guidelines were applied to filter the relevant studies based on inclusion and exclusion criteria.We used a combination of keywords and the Reference Citation Analysis(RCA)tool to search the potential studies and performed data extraction from selected studies.RESULTS The published results were inconsistent;however,most studies showed a significantly higher IL-6 level in glioma cases as compared to controls.Comparative IL-6 level among the different grades of glioma showed a higher level with low-grade gliomas and lower level with high-grade gliomas.CONCLUSION IL-6 level significantly differed between cases and controls,and among different cancer stages,which shows its potential as a diagnostic and prognostic marker.
基金financially supported by the National Natural Science Foundation (52002249,51402093 and 21706162)Guangdong Basic and Applied Basic Research Foundation (2019A1515110025 and 2017A 030313289)+3 种基金the Research Grant for Scientific Platform and Project of Guangdong Provincial Education Office (2019KTSCX151)China Postdoctoral Science Foundation (2020M682872)Shenzhen Government’s Plan of Science and Technology (JCYJ201803005125247308)Technical support from the Instrumental Analysis Center of Shenzhen University (Xili Campus) is also appreciated。
文摘固体氧化物电池可实现CO/CO_(2)的可逆转化,在电能和化学能相互转化过程中显示出巨大潜力.然而,其商业化进展一直受到燃料极抗积碳性能差的限制.本工作中,我们发展了一种CoFe合金纳米颗粒和Ruddlesden-Popper层状结构Sr_(3)Fe_(1.25)Mo_(0.75)O_(7)-δ复合新型燃料电极(CoFe-SFM),其可以通过钙钛矿Sr_(2)Fe_(7/6)Mo_(0.5)Co_(1/3)O_(6-δ)在还原气氛中退火发生相变得到.电化学阻抗谱和弛豫时间分步法分析可知CoFe-SFM电极通过改善体相氧化学扩散能力和表面氧交换过程来增强CO氧化和CO_(2)还原动力学.在固体氧化物燃料电池模式下,800℃的最大功率达到259 mW cm^(-2);在固体氧化物电解电池模式下,1.3 V工作电压下单电池的电解电流密度为-0.453 A cm^(-2),都远超对比电极材料.在20次SOFC-SOEC循环操作条件下,CoFe-SFM燃料极依然保持稳定的微结构和抗积碳性能,电池性能保持良好.该工作可为CO_(2)转化、抗积碳电极材料设计和提升电极表界面反应动力学提供一定的指导作用.