Aiming at improving the properties of magnesia carbon materials,silicon aluminum carbide(Al_(4)SiC_(4))containing materials were prepared using industrial aluminum powder,silicon carbide powder,and graphite as raw mat...Aiming at improving the properties of magnesia carbon materials,silicon aluminum carbide(Al_(4)SiC_(4))containing materials were prepared using industrial aluminum powder,silicon carbide powder,and graphite as raw materials,and activated alumina powder as an additive,mixing thoroughly,pressing into cylinders and then firing at 1200℃for 30 min in a carbon embedded atmosphere by the microwave method.The effects of the aluminum powder addition(20%and 24%,by mass)and activated alumina powder addition(0,3%,5%and 7%,by mass)on the microwave synthesis of Al_(4)SiC_(4) as well as the effect of the obtained Al_(4)SiC_(4) containing material on the properties of magnesia carbon bricks were studied.The results show that:compared with the samples with 20%aluminum powder,those with 24%aluminum powder generate more Al_(4)SiC_(4).With the activated alumina powder addition increasing from 0 to 7%,the amount of Al_(4)SiC_(4) generated increases first and then decreases.Compared with the sample without activated alumina powder,the samples with activated alumina powder show lower bulk density and higher apparent porosity.With the activated alumina powder addition increasing from 3%to 7%,the bulk density of the samples increases first and then decreases,while the apparent porosity of the samples shows an opposite trend.The optimal additions are 24%aluminum powder and 5%activated alumina powder,and Al_(4)SiC_(4) synthesized in this sample has a hexagonal plate structure.With the synthesized Al_(4)SiC_(4) containing material added,the magnesia carbon brick has slightly increased cold modulus of rupture,basically the same modulus of elasticity and improved oxidation resistance.展开更多
Owing to their high luminous efficiency and tunable emission in both red light and far-red light regions,Mn^(4+)ion-activated phosphors have appealed significant interest in photoelectric and energy conversion devices...Owing to their high luminous efficiency and tunable emission in both red light and far-red light regions,Mn^(4+)ion-activated phosphors have appealed significant interest in photoelectric and energy conversion devices such as white light emitting diode(W-LED),plant cultivation LED,and temperature thermometer.Up to now,Mn^(4+)has been widely introduced into the lattices of various inorganic hosts for brightly redemitting phosphors.However,how to correlate the structure-activity relationship between host framework,luminescence property,and photoelectric device is urgently demanded.In this review,we thoroughly summarize the recent advances of Mn^(4+)doped phosphors.Meanwhile,several strategies like co-doping and defect passivation for improving Mn^(4+)emission are also discussed.Most importantly,the relationship between the protocols for tailoring the structures of Mn^(4+)doped phosphors,increased luminescence performance,and the targeted devices with efficient photoelectric and energy conversion efficiency is deeply correlated.Finally,the challenges and perspectives of Mn^(4+)doped phosphors for practical applications are anticipated.We cordially anticipate that this review can deliver a deep comprehension of not only Mn^(4+)luminescence mechanism but also the crystal structure tailoring strategy of phosphors,so as to spur innovative thoughts in designing advanced phosphors and deepening the applications.展开更多
Novel graphene-like boron nitride(BN)/Bi_(3)O_(4)Br photocatalysts have been controllably synthesized through a facile solvothermal method for the first time. Layer contact stacking between graphene-like BN and ultrat...Novel graphene-like boron nitride(BN)/Bi_(3)O_(4)Br photocatalysts have been controllably synthesized through a facile solvothermal method for the first time. Layer contact stacking between graphene-like BN and ultrathin Bi_(3)O_(4)Br was achieved with strong interaction. Dehalogenation is designed to harvest more visible light, and the ultrathin structure of Bi_(3)O_(4)Br is designed to accelerate charge transfer from inside to the surface. After graphene-like BN was engineered, photocatalytic performance greatly improved under visible light irradiation. Graphene-like BN can act as a surface electron-withdrawing center and adsorption center, facilitating molecular oxygen activation. O_(2)^(·-)was determined to be the main active species during the degradation process through analyses of electron spin resonance and XPS valence band spectra.展开更多
目的研究程序性细胞死亡蛋白4(programmed cell death protein 4,PDCD4)在脓毒症诱导的急性肾损伤(acute kidney injury,AKI)中的作用机制,以及调控PDCD4表达通过丝裂原活化蛋白激酶3(mitogen-activated protein kinase 3,MAP2K3)和p38...目的研究程序性细胞死亡蛋白4(programmed cell death protein 4,PDCD4)在脓毒症诱导的急性肾损伤(acute kidney injury,AKI)中的作用机制,以及调控PDCD4表达通过丝裂原活化蛋白激酶3(mitogen-activated protein kinase 3,MAP2K3)和p38蛋白激酶(p38 mitogen-activated protein kinase,p38 MAPK)对脓毒症AKI起到潜在治疗作用。方法用脂多糖(lipopolysaccharide,LPS)刺激人肾小管上皮细胞(HK-2)构建脓毒症AKI细胞模型。进一步用腺病毒介导siRNA和过表达载体抑制和上调AKI细胞模型中PDCD4的表达;CCK-8法检测细胞增殖;用DCFH-DA及激光共聚焦显微镜检测细胞中ROS水平,用总SOD活性检测试剂和MDA检测试剂盒检测细胞中SOD和MDA水平;免疫共沉淀验证PDCD4和MAP2K3之间的蛋白相互作用;TUNEL染色法检测细胞凋亡;RT-qPCR和Western blot检测PDCD4及相关基因的mRNA和蛋白表达水平;ELISA法检测患者血清中炎症相关因子水平。结果LPS诱导可以促进HK-2细胞中PDCD4表达,下调PDCD4可抑制LPS诱导的HK-2细胞的炎症、氧化应激及细胞凋亡。数据库预测及免疫共沉淀证实PDCD4可以与MAP2K3相互作用,且在LPS诱导的HK-2细胞中,MAP2K3表达水平显著增强。MAP2K3过表达和p38 MAPK激动剂可以减轻PDCD4下调对LPS诱导的细胞炎症和氧化应激的影响并抑制细胞凋亡。结论下调PDCD4可以通过抑制MAP2K3和p38 MAPK从而抑制LPS诱导的肾小管上皮细胞的炎症和凋亡。展开更多
基金This work was funded by Luoyang Major Science and Technology Innovation Project(2301009A)Henan Province Key ResearchandDevelopment Project(231111230200).
文摘Aiming at improving the properties of magnesia carbon materials,silicon aluminum carbide(Al_(4)SiC_(4))containing materials were prepared using industrial aluminum powder,silicon carbide powder,and graphite as raw materials,and activated alumina powder as an additive,mixing thoroughly,pressing into cylinders and then firing at 1200℃for 30 min in a carbon embedded atmosphere by the microwave method.The effects of the aluminum powder addition(20%and 24%,by mass)and activated alumina powder addition(0,3%,5%and 7%,by mass)on the microwave synthesis of Al_(4)SiC_(4) as well as the effect of the obtained Al_(4)SiC_(4) containing material on the properties of magnesia carbon bricks were studied.The results show that:compared with the samples with 20%aluminum powder,those with 24%aluminum powder generate more Al_(4)SiC_(4).With the activated alumina powder addition increasing from 0 to 7%,the amount of Al_(4)SiC_(4) generated increases first and then decreases.Compared with the sample without activated alumina powder,the samples with activated alumina powder show lower bulk density and higher apparent porosity.With the activated alumina powder addition increasing from 3%to 7%,the bulk density of the samples increases first and then decreases,while the apparent porosity of the samples shows an opposite trend.The optimal additions are 24%aluminum powder and 5%activated alumina powder,and Al_(4)SiC_(4) synthesized in this sample has a hexagonal plate structure.With the synthesized Al_(4)SiC_(4) containing material added,the magnesia carbon brick has slightly increased cold modulus of rupture,basically the same modulus of elasticity and improved oxidation resistance.
基金financially supported by the National Natural Science Foundation of China(52072101,51972088,U20A20122 and U1663225)the Program for Changjiang Scholars and Innovative Research Team in University(IRT_15R52)of the Chinese Ministry of Education+2 种基金the Program of Introducing Talents of Discipline to Universities-Plan 111(Grant No.B20002)from the Ministry of Science and Technology and the Ministry of Education of ChinaHubei Provincial Department of Education for the“Chutian Scholar”programsupported by the European Commission Interreg V FranceWallonie-Vlaanderen project“Depollut Air”。
文摘Owing to their high luminous efficiency and tunable emission in both red light and far-red light regions,Mn^(4+)ion-activated phosphors have appealed significant interest in photoelectric and energy conversion devices such as white light emitting diode(W-LED),plant cultivation LED,and temperature thermometer.Up to now,Mn^(4+)has been widely introduced into the lattices of various inorganic hosts for brightly redemitting phosphors.However,how to correlate the structure-activity relationship between host framework,luminescence property,and photoelectric device is urgently demanded.In this review,we thoroughly summarize the recent advances of Mn^(4+)doped phosphors.Meanwhile,several strategies like co-doping and defect passivation for improving Mn^(4+)emission are also discussed.Most importantly,the relationship between the protocols for tailoring the structures of Mn^(4+)doped phosphors,increased luminescence performance,and the targeted devices with efficient photoelectric and energy conversion efficiency is deeply correlated.Finally,the challenges and perspectives of Mn^(4+)doped phosphors for practical applications are anticipated.We cordially anticipate that this review can deliver a deep comprehension of not only Mn^(4+)luminescence mechanism but also the crystal structure tailoring strategy of phosphors,so as to spur innovative thoughts in designing advanced phosphors and deepening the applications.
基金financially supported by the Fundamental Research Funds for the Central Universities (No.30922010302)the Start-Up Grant from Nanjing University of Science and Technology (AE89991/397)。
文摘Novel graphene-like boron nitride(BN)/Bi_(3)O_(4)Br photocatalysts have been controllably synthesized through a facile solvothermal method for the first time. Layer contact stacking between graphene-like BN and ultrathin Bi_(3)O_(4)Br was achieved with strong interaction. Dehalogenation is designed to harvest more visible light, and the ultrathin structure of Bi_(3)O_(4)Br is designed to accelerate charge transfer from inside to the surface. After graphene-like BN was engineered, photocatalytic performance greatly improved under visible light irradiation. Graphene-like BN can act as a surface electron-withdrawing center and adsorption center, facilitating molecular oxygen activation. O_(2)^(·-)was determined to be the main active species during the degradation process through analyses of electron spin resonance and XPS valence band spectra.
文摘目的研究程序性细胞死亡蛋白4(programmed cell death protein 4,PDCD4)在脓毒症诱导的急性肾损伤(acute kidney injury,AKI)中的作用机制,以及调控PDCD4表达通过丝裂原活化蛋白激酶3(mitogen-activated protein kinase 3,MAP2K3)和p38蛋白激酶(p38 mitogen-activated protein kinase,p38 MAPK)对脓毒症AKI起到潜在治疗作用。方法用脂多糖(lipopolysaccharide,LPS)刺激人肾小管上皮细胞(HK-2)构建脓毒症AKI细胞模型。进一步用腺病毒介导siRNA和过表达载体抑制和上调AKI细胞模型中PDCD4的表达;CCK-8法检测细胞增殖;用DCFH-DA及激光共聚焦显微镜检测细胞中ROS水平,用总SOD活性检测试剂和MDA检测试剂盒检测细胞中SOD和MDA水平;免疫共沉淀验证PDCD4和MAP2K3之间的蛋白相互作用;TUNEL染色法检测细胞凋亡;RT-qPCR和Western blot检测PDCD4及相关基因的mRNA和蛋白表达水平;ELISA法检测患者血清中炎症相关因子水平。结果LPS诱导可以促进HK-2细胞中PDCD4表达,下调PDCD4可抑制LPS诱导的HK-2细胞的炎症、氧化应激及细胞凋亡。数据库预测及免疫共沉淀证实PDCD4可以与MAP2K3相互作用,且在LPS诱导的HK-2细胞中,MAP2K3表达水平显著增强。MAP2K3过表达和p38 MAPK激动剂可以减轻PDCD4下调对LPS诱导的细胞炎症和氧化应激的影响并抑制细胞凋亡。结论下调PDCD4可以通过抑制MAP2K3和p38 MAPK从而抑制LPS诱导的肾小管上皮细胞的炎症和凋亡。