组蛋白去乙酰化酶抑制剂N3F抑制肺癌细胞增殖及其凋亡作用的研究

目的研究N3F对非小细胞肺癌细胞株的抑制增殖作用,并探讨其诱导癌细胞凋亡的作用及机制.方法采用CCK-8法和平板克隆实验法检测N3F对非小肺癌细胞株SPC-A-1、A549增殖的抑制作用;细胞划痕实验法检测药物对肺癌细胞的迁移抑制;Hoechst 33258染色法与流式细胞仪检测药物诱导肺癌细胞凋亡情况;Western blot法检测N3F对SPC-A-1细胞中HDAC3、Bcl-2和Bax蛋白表达水平的影响.结果与对照组比较,N3F组能显著抑制SPC-A-1、A549细胞的增殖,减少细胞形成的集落数,显著抑制细胞迁移,且呈剂量依赖性.N3F可以诱导肺癌细胞凋亡,下调细胞中HDAC3、Bcl-2蛋白表达,同时上调Bax蛋白的表达,其差异有统计学意义(P<0.05,P<0.01).结论 N3F具有抑制肺癌细胞增殖的作用,其机制可能与下调HDAC3的表达、诱导癌细胞凋亡有关.

C_3F_7CN/N_2混合气体的直流击穿特性

寻找替代SF6应用于直流气体绝缘金属封闭输电线路(GIL)中的环保型气体成为近年来电力领域的研究热点,而C3F7CN是一种具有良好替代前景的气体。本文试验研究了均匀电场下0.3~0.7MPa气压范围内C3F7CN含量为8%~16%的C_3F_7CN/N_2混合气体的直流击穿特性,并将结果与SF6气体、SF6/N2混合气体和C3F7CN/CO2混合气体对比。试验结果及分析表明:C_3F_7CN/N_2混合气体的正、负极性直流击穿电场强度均随着气压下降而降低,随着混合气体中C3F7CN含量增加提高了20%,0.7MPa下14%C3F7CN/86%N2的负极性击穿电场强度达到0.4MPa下SF6的87.3%,相同气压下,直流击穿电场强度以8%C3F7CN/92%N2混合气体最低,8%C3F7CN/92%CO2混合气体其次,20%SF6/80%N2混合气体最高。采用X射线光电子能谱(XPS)对金属电极表面的固体放电副产物进行分析,获得了C_3F_7CN/N_2混合气体放电过程中气体与电极可能发生的反应。

理论研究F_2BN_3多聚体的结构特色和热力学稳定性(英文)

在密度泛函理论(DFT)B3LYP/6-311+G~*水平上计算研究了叠氮二氟硼多聚体(F_2BN_3)_n(n=1～4),获得了它们的结构和热力学性质,讨论了几何参数随聚合度的变化趋势.多聚体(F_2BN_3)_(2-4)的优化构型均为由不同子体系的叠氮基α-N和B原子相连形成的环状结构.三聚体的船扭式构象比椅式构象的结合能低10.54 kJ·mol^(-1);四个新获得的四聚体的结合能差异较大,大小为3.1～45.65 kJ·mol^(-1).由焓变可知,单体形成二聚体在热力学上是不利的,而形成三聚体和四聚体在高达1200K的温度下是有利的,同时分析比较了后续反应的热力学参数.

超几何多项式_3F_2(-n,n+a,b;n+c,-n+d;z)零点的渐近分布(英文)

利用经典的分析方法导出了一类超几何多项式3F2(-n,n+a,b;n+c,-n+d;z)零点的渐近分布.

Investigation of the performance of CF3I/c-C4F8/N2 and CF3I/c-C4F8/CO2 gas mixtures from electron transport parameters

CF3I gas mixtures have attracted considerable attention as potential environmentally-friendly alternatives to SF6 gas,owing to their excellent insulating performance.This paper attempts to study the CF3I ternary gas mixtures with c-C4F8 and buffer gases N2 and CO2 by considering dielectric strength from electron transport parameters based on the Boltzmann method and synergistic effect analysis,compared with SF6 gas mixtures.The results confirm that the critical electric field strength of CF3I/c-C4F8/70%CO2 is greater than that of 30%SF6/70%CO2 when the CF3I content is greater than 17%.Moreover,a higher content of c-C4F8 decreases the sensitivity of gas mixtures to an electric field,and this phenomenon is more obvious in CF3I/c-C4F8/CO2 gas mixtures.The synergistic effects for CF3I/c-C4F8/70%N2 were most obvious when the c-C4F8 content was approximately 20%,and for CF3I/c-C4F8/70%CO2 when the c-C4F8 content was approximately 10%.On the basis of this research,CF3I/c-C4F8/70%N2 shows better insulation performance when the c-C4F8 content is in the15%–20%range.For CF3I/c-C4F8/70%CO2,when the c-C4F8 content is in the 10%–15%range,the gas mixtures have excellent performance.Hence,these gas systems might be used as alternative gas mixtures to SF6 in high-voltage equipment.

浅谈新型高效杀虫剂氟虫腈制备新工艺

新型高效灭冲剂氟虫腈是化学合成工艺,主要包含高纯度氟虫腈加工方式,其涉及如下环节:5-氨基-3-氢基-1-(2,6-二氯-4-三氟甲基苯基)-4-三氟甲硫基吡唑(I)于2,3-二氰基丙酸甲酯液体、氯化三氟甲基硫气体(都自制),NaNO?、对硝基甲苯、正己烷、3-氯过氧苯甲酸(C7H5CLO3)、甲苯、Na2O4S等试剂条件下展开反应加工氟虫腈,最后制备的氟虫腈收率高达95%,纯度高达99%,后操作简单,没有复杂分离过程,基本无副反应。结果显示,最好合成方法条件是:4-三氟甲基苯胺(C7H6F3N)/SO2Cl2=1:35(摩尔比),反应时长4小时,产品收率是84.4%。

TiAl与Si_3N_(4f)/Si_3N_4复合材料钎焊接头界面结构及性能研究

采用AgCuTi钎料实现了TiAl与Si3N4f/Si3N4复合材料的钎焊,确定了钎焊接头的典型界面组织结构为TiAl/AlCuTi/Ag(s,s)/TiN/Si3N4f/Si3N4。钎焊过程中,液相钎料在Si3N4f/Si3N4复合材料表面发生较好润湿,钎料中活性元素Ti与Si3N4基体及纤维发生反应形成连续的TiN化合物层。过高的钎焊温度或过长的保温时间导致钎缝中脆性的AlCuTi化合物增加,且由于接头应力的作用在钎缝中产生微裂纹甚至开裂,严重地降低了钎焊接头性能。当钎焊温度T=850℃,保温时间为10min时,接头抗剪强度达到最大,为9.4MPa,超过Si3N4f/Si3N4母材层间抗剪强度的60%。断口分析表明:压剪过程中,断裂发生在Si3N4f/Si3N4复合材料一侧。

簇合物(F_2GaN_3)_n(n=1～4)的理论研究

采用密度泛函理论B3LYP/6-311＋G＊方法,计算研究了（F2GaN3）n（n=14）簇合物的结构和性质.研究表明,簇合物（F2GaN3）n（n=24）的优化构型均拥有Ga—Nα—Ga连接的环状结构.讨论了几何参数随聚合度的变化关系.三聚体的船式构象较椅式构象的能量低16 kJ.mol-1,具有S4对称性的四聚体较Cs对称性的四聚体稳定.通过振动分析,获得它们的IR谱并进行归属.基于统计热力学原理,由计算IR谱获得热力学函数（C0p,m、S0m及H0m）均随聚合度n以及温度的增加而呈线性递增.较高温度下,多聚化在热力学上仍是有利的.

Fabrication and oxidation resistance of silicon nitride fiber reinforced silica matrix wave-transparent composites

Wave-transparent ceramic matrix composites for the high temperature use should possess excellent oxidation resistance. In this work, Si3N4f/SiO2 composites with different fiber content were fabricated by filament winding and sol gel method. The oxidation resistance was investigated by tracking the response of flexural strength to the testing temperature. The results show that the flexural strength and toughness of the composites with fiber content of over 37% can reach high levels at around 175.0 MPa and 6.2 MPa m^1/2, respectively. After 1 h oxidation at 1100℃, the flexural strength drops a lot but can still reach 114.4 MPa, which is high enough to ensure the safety of structures. However, when the oxidation temperature rises to 1200–1400℃, the flexural strengths continue to fall to a relatively low level at 50.0–66.4 MPa. The degradation at high temperatures is caused by the combination of over strong interfacial bonding, the damage of fiber and the crystallization of silica matrix.

Er^3+:V0.01Y2.99Al5N0.01F0.01O11.98/BiPO4/Pt光催化剂的制备及其在降解废水中亚甲基蓝的应用

通过溶胶-凝胶法合成了上转换发光材料Er^3+:V0.01Y2.99Al5N0.01F0.01O11.98(Er:YAG),然后利用水热法合成了BiPO4,再利用高温煅烧法合成了Er:YAG/BiPO4/Pt复合物光催化剂.通过使用X-射线粉末衍射仪(XRD),扫描电子显微镜(SEM),透射电子显微镜(TEM),光致发光光谱(PL)和上转换发射光谱对样品的组成、形貌及光学特征进行了表征.此外,还研究了不同甘油添加量、Er:YAG和BiPO4的摩尔比例和复合温度及光催化剂的循环使用次数对Er:YAG/BiPO4/Pt复合物光催化剂活性的影响.实验结果显示Er:YAG/BiPO4/Pt复合物光催化剂具有高的光催化活性和较好的稳定性,它可以作为一种高效的光催化剂用于污水中有机污染物的处理.