C_3S-C_(12)A_7-H_2O和C_3S-C_(12)A_7-CaSO_4·2H_2O-H_2O系统的水化及其性能研究

试验用结合水法、化学减缩法、XRD定量等物理、化学分析方法 ,研究了C1 2 A7和石膏同时存在时C3S在不同系统中的水化动力学及水化机理。结果表明C1 2 A7能够促进C3S的水化 ,尤其是对C3S早期水化有显著的促进作用 ;当有石膏存在时 ,这种促进作用更为显著。其机理是由于C1 2 A7水解放出的Al(OH) - 4 与C3S水解放出的Ca2 +反应生成C3AH6 ,当有石膏存在时 ,生成钙钒石 ,从而加快了C3S的水化。

C12A7-K_2O催化水蒸气重整生物油制氢

制备了C12A7-K2O和C12A7-O-催化剂.比较了C12A7-K2O和C12A7-O-两种催化剂对生物油进行催化水蒸气重整制氢的性能,结果表明C12A7-K2O的效果要明显优于C12A7-O-.在750℃时用C12A7-K2O催化剂得到63.7%的较高氢气产率.钾的加入大大提高了催化剂生物油水蒸气重整制氢的性能.

干扰E2F7对C2C12成肌细胞增殖的影响

【目的】探究转录因子E2F7在骨骼肌细胞发育过程中的作用。【方法】以C2C12成肌细胞为研究对象,通过设计小干扰RNA干扰C2C12成肌细胞中E2F7的表达,分为干扰组和对照组,并利用RT-PCR、CCK-8和EdU等技术检测在C2C12成肌细胞中干扰E2F7后对成肌细胞增殖的影响。【结果】E2F7 mRNA表达水平在C2C12成肌细胞增殖期极显著高于分化期(P<0.01);与对照组相比,干扰组的细胞活率和新生细胞比率皆极显著高于对照组(P<0.01);干扰E2F7显著提升了C2C12成肌细胞中Cyclin E的表达水平(P<0.05),极显著促进Cyclin D和CDK4的表达(P<0.01);并且干扰E2F7可显著促进E2F2 (P<0.05)和极显著促进E2F1及E2F3的表达(P<0.01),同时极显著促进与成肌细胞增殖相关microRNAs (miR-7、miR-25、miR-27和miR-92a)的表达(P<0.01)。【结论】干扰E2F7可促进C2C12成肌细胞的增殖,E2F7可能是通过调控经典E2Fs信号通路和成肌细胞增殖相关microRNA发挥作用。

干扰Sema7A抑制C2C12成肌细胞的增殖和分化

为研究脑信号蛋白家族(Semaphorins)成员Sema7A对成肌细胞增殖和分化的影响,本文设计并合成了Sema7A基因的小干扰RNA(small interfering RNA,siRNA),用此siRNA转染C2C12成肌细胞.通过Hoechst核染和流式细胞术检测细胞增殖情况,免疫荧光检测肌管的形成情况,realtime qPCR和Western印迹技术检测成肌标记基因的变化.结果显示,干扰Sema7A后,C2C12成肌细胞增殖减慢,处在G2和S期的细胞所占的比例明显下降,而G1期细胞的比例升高.免疫荧光检测结果显示,干扰Sema7A后,肌管的直径及MyHC+细胞所占比例均显著降低.Real-time qPCR和Western印迹结果也显示,肌肉分化标志基因MyoD、MyoG、MyHC的mRNA及蛋白质表达均下降.进一步检测Sema7A受体下游信号通路发现,干扰Sema7A后,其下游信号分子PI3K和AKT的磷酸化水平被下调.以上结果表明,Sema7A可以调节C2C12成肌细胞的增殖和分化,可能是通过其受体作用于PI3K/AKT信号通路实现的,这为进一步研究Sema7A在骨骼肌发育中的作用提供实验基础.

Na_2O掺杂C12A7材料的结构及其抗菌性能(英文)

本文利用溶胶-凝胶方法制备了Na2O掺杂的C12A7(12CaO.7Al2O3-Na2O)材料,通过X-射线衍射(XRD)、电子顺磁共振(EPR)、电感等离子体耦合-原子发射光谱(ICP-AES)和飞行时间质谱(TOF-MS)研究了材料结构与性能。选用金黄色葡萄球菌和大肠杆菌为受试菌种,研究了C12A7-Na2O的抗菌性能。结果表明,Na2O掺杂对C12A7的晶体结构以及材料中的氧负离子的浓度没有显著的影响,且C12A7-Na2O材料具有较高的抗菌性能。利用扫描电镜(SEM)对杀菌前后的金黄色葡萄球菌和大肠杆菌的菌体形态进行了观测,初步探讨了C12A7-Na2O的抗菌机理。

Nd_2(C_7H_4NO_4)_2(SiW_(12)O_(40))·18H_2O的合成及其光电性能的研究

以硅钨酸和2,3-吡啶二羧酸为配体合成了一种新型的配合物Nd2（C7H4NO4）2（SiW12O40）·18H2O,并对其进行了元素分析、红外光谱、紫外光谱、荧光光谱、热重分析和电化学分析等一系列表征。结果表明：配合物在261nm处具有较强的紫外吸收;在361nm处进行荧光激发,分别在431nm和480nm处得到两个强度不同的荧光发射峰;具有较好的热稳定性;在-0.3~0.3V的电势范围具有电化学活性。

[C_4H_7N_2]_3·PMo_(12)O_(40)配合物晶体的形貌模拟及其最佳纳米化计算的探讨

采用量子化学计算软件Material Studio的Morphology模块BFDH法则模拟了[C4H7N2]3.PMo12O40配合物晶体生长稳定外形,以晶体模拟形貌为基础,运用纳米计算方法通过对[C4H7N2]3.PMo12O40的不同纳米微粒总晶胞数、总原子数、比表面积、单颗粒表面原子数、单颗粒表面晶胞数及表面活性原子比例的计算,得出了[C4H7N2]3.PMo12O40纳米微粒的最佳纳米尺度为135nm,认为晶体纳米化过程中[C4H7N2]3.PMo12O40制备到该尺度范围,理论上[C4H7N2]3.PMo12O40的活性和稳定性会达到均衡的最佳状态。

C4F7N/CO2、C5F10O/C6F12O/Air的环保绝缘气体特性研究及应用

研究环保绝缘气体具有深远的社会意义。C4F7N、C5F10O混合气体是最有希望替代高温室效应SF6的环保绝缘气体。对C4F7N/CO2、C5F10O/C6F12O/Air混合气体的GWP值、液化性能和绝缘性能进行了详细研究。C4F7N/CO2(总压7 bar,C4F7N分压0.466 bar)的GWP值503,是SF6的2.13%;C5F10O/C6F12O/Air(总压8 bar,C5F10O分压0.285 bar,C6F12O分压0.100 bar)的GWP值0.33,是SF6的0.001%。C4F7N、C5F10O气体沸点较高,C4F7N气体在-25℃环境,其饱和蒸气压为0.466 bar;C5F10O气体在-5℃环境,其饱和蒸气压为0.285 bar。C4F7N/CO2、C5F10O/Air混合气体属于正协同效应气体,具有冲击特性,对负极性冲击电压更为敏感。420 k V GIS用母线在雷电冲击耐受电压1425 kV下,最大电场强度为20.4 kV/mm;可以选择C4F7N/CO2(C4F7N分压0.466 bar,最低功能充气总压7 bar)作为绝缘介质,满足户外GIS-25℃的低温环境要求;也可以选择C5F10O/C6F12O/Air(C5F10O分压0.285 bar,C6F12O分压0.100 bar,最低功能充气总压8 bar)混合气体作为绝缘介质,满足户内GIS-5℃的低温环境要求。研究结果为进一步研发环保型GIS提供参考。

(C_5H_(11)N_2)^+和(C_7H_(12)N_2)^(2+)的NMR研究

结合1H NMR,13C NMR谱,分别对钨、钼配合物{WO2(C10H6O2)2(C5H11N2)2[H2N(CH2)3NH2]}3(1),{(C5H11N2)2[H2N(CH2)3NH2][MoO2(C10H6O2)2]}(2),{(C7H12N2)2[MoO2(C10H8O2)2]}(3)晶体结构中小分子环进行了归属.其中,配合物1和2中(C5H11N2)+的NMR研究证实了六元环由1,3-丙二胺和乙腈化合而成,配合物3中(C7H12N2)2+的NMR谱图证实了七元环由乙二胺和乙酰丙酮化合而成,并且推导出这些亲核加成-消除反应的反应机理.配合物1~3中的小分子环的合成在其它体系中尚未见报导,而在合成它们的反应中作为新产物随主体晶体析出,并由晶体结构解析和NMR得到了证实.

Preparation and Characterization of Storage and Emission Functional Material of Cs2O-doped 12CaO.7Al2O3

We provides a novel approach to generate low-temperature atomic oxygen anions （O-） emission using the cesium oxide-doped 12CaO.7Al2O3 （Cs2O-doped C12A7）. The maximal emission intensity of O- from the Cs2O-doped C12A7 at 700℃ and 800 V/cm reached about 0.54μA/cm2, which was about two times as strong as that from the un-doped C12A7 （0.23 μA/cm2） under the same condition. The initiative temperature of the O- emission from the Cs2O-doped C12A7 was about 500 ℃, which was also much lower than the initiative temperature from the un-doped C12A7 （570 ℃） in the given field of 800 V/cm. High pure O- emission close to 100% could be obtained from the Cs2O-doped C12A7 under the lower temperature （〈550℃）. The emission features of the Cs2O-doped C12A7, including the emission distribution, temperature effect, and emission branching ratio have been investigated in detail and compared with the un-doped C12A7. The structure and storage characteristics of the resulting material were also investigated via X-ray diffraction and electron paramagnetic resonance. It was found that doping Cs2Oto C12A7 will lower the initiative emission temperature and enhance the emission intensity

Viability of all-solid-state lithium metal battery coupled with oxide solid-state electrolyte and high-capacity cathode

Owing to the utilization of lithium metal as anode with the ultrahigh theoretical capacity density of 3860 mA h g^(-1)and oxide-based ceramic solid-state electrolytes(SE),e.g.,garnet-type Li7La_(3)Zr_(2)O_(12)(LLZO),all-state-state lithium metal batteries(ASLMBs)have been widely accepted as the promising alternatives for providing the satisfactory energy density and safety.However,its applications are still challenged by plenty of technical and scientific issues.In this contribution,the co-sintering temperature at 500℃is proved as a compromise method to fabricate the composite cathode with structural integrity and declined capacity fading of LiNi_(0.5)Co_(0.2)Mn_(0.3)O_(2)(NCM).On the other hand,it tends to form weaker grain boundary(GB)inside polycrystalline LLZO at inadequate sintering temperature for LLZO,which can induce the intergranular failure of SE during the growth of Li filament inside the unavoidable defect on the interface of SE.Therefore,increasing the strength of GB,refining the grain to 0.4μm,and precluding the interfacial defect are suggested to postpone the electro-chemo-mechanical failure of SE with weak GB.Moreover,the advanced sintering techniques to lower the co-sintering temperature for both NCM-LLZO composite cathode and LLZO SE can be posted out to realize the viability of state-of-the-art ASLMBs with higher energy density as well as the guaranteed safety.

齿轮钢20CrMnTi水口堵塞原因分析与改进

通过对齿轮钢熔炼成分及生产工艺流程的介绍,阐述了水口堵塞对齿轮钢生产带来的主要危害。针对齿轮钢水口堵塞的原因及改进措施进行了分析研究,重点对钢水处理时钙的加入量进行了理论计算与分析。

Biological insights in non-small cell lung cancer

Lung oncogenesis relies on intracellular cysteine to overcome oxidative stress.Several tumor types,including non-small cell lung cancer(NSCLC),upregulate the system x-c cystine/glutamate antiporter(xCT)through overexpression of the cystine transporter SLC7A11,thus sustaining intracellular cysteine levels to support glutathione synthesis.Nuclear factor erythroid 2-related factor 2(NRF2)serves as a master regulator of oxidative stress resistance by regulating SLC7A11,whereas Kelch-like ECH-associated protein(KEAP1)acts as a cytoplasmic repressor of the oxidative responsive transcription factor NRF2.Mutations in KEAP1/NRF2 and p53 induce SLC7A11 activation in NSCLC.Extracellular cystine is crucial in supplying the intracellular cysteine levels necessary to combat oxidative stress.Disruptions in cystine availability lead to iron-dependent lipid peroxidation,thus resulting in a type of cell death called ferroptosis.Pharmacologic inhibitors of xCT(either SLC7A11 or GPX4)induce ferroptosis of NSCLC cells and other tumor types.When cystine uptake is impaired,the intracellular cysteine pool can be sustained by the transsulfuration pathway,which is catalyzed by cystathionine-B-synthase(CBS)and cystathionine g-lyase(CSE).The involvement of exogenous cysteine/cystine and the transsulfuration pathway in the cysteine pool and downstream metabolites results in compromised CD8^(+)T cell function and evasion of immunotherapy,diminishing immune response and potentially reducing the effectiveness of immunotherapeutic interventions.Pyroptosis is a previously unrecognized form of regulated cell death.In NSCLCs driven by EGFR,ALK,or KRAS,selective inhibitors induce pyroptotic cell death as well as apoptosis.After targeted therapy,the mitochondrial intrinsic apoptotic pathway is activated,thus leading to the cleavage and activation of caspase-3.Consequently,gasdermin E is activated,thus leading to permeabilization of the cytoplasmic membrane and cell-lytic pyroptosis(indicated by characteristic cell membrane ballooning).Breakthroughs in KRAS G12C allele-specific inhibitors and potential mechanisms of resistance are also discussed herein.

肉牛miR-133a通过抑制PAX7促进成肌细胞分化研究

旨在探究bta-miR-133a参与肉牛调控背最长肌发育的分子机制。通过采集布莱凯特黑牛和鲁西黄牛的背最长肌进行sRNA建库,数据筛选与肉牛骨骼肌发育相关的bta-miR-133a,采用生物信息学分析软件鉴定其保守性并预测其靶基因,对其靶基因进行GO富集分析和KEGG通路富集分析,并通过双荧光素酶报告试验对预测的潜在靶基因进行验证;选取C2C12细胞进行功能验证,过表达和敲除bta-miR-133a,48 h后2%马血清诱导观察肌管分化过程,CCK-8检测细胞增殖率,实时荧光定量PCR检测细胞增殖分化标记基因PCNA、CCND1、Myh1、Myod1以及靶基因的表达量。结果表明,bta-miR-133a的成熟序列在各物种间高度保守,靶基因预测为PAX7,经双荧光素酶报告试验验证,bta-miR-133a与PAX7存在靶标关系。GO富集和KEGG通路分析结果显示,预测靶基因显著富集于肌动蛋白细胞骨架组织的调节、经典Wnt信号通路的负调控、肌动蛋白丝结合等GO条目中和MAPK、Ras、FoxO等与肌肉发育相关的信号通路中。过表达bta-miR-133a促进肌管分化(P<0.01),在72 h,降低细胞的增殖率(P<0.01),抑制靶基因PAX7的表达(P<0.01);敲除bta-miR-133a则抑制肌管分化(P<0.01),在72 h时,增加细胞的增殖率(P<0.05),促进靶基因PAX7表达(P<0.01)。在细胞增殖方面,过表达bta-miR-133a降低其标记基因PCNA、CCND1的表达量(P<0.05),敲除组则相反;在细胞分化方面,过表达bta-miR-133a增加其标记基因Myh1、Myod1的表达量(P<0.01),敲除组则相反。综上表明,bta-miR-133a可能通过靶向负调控PAX7的表达抑制成肌细胞增殖、促进其分化而参与背最长肌的发育过程。

bta-miR-1通过调控PAX7参与骨骼肌发育的功能研究

本研究旨在探究牛miR-1(bta-miR-1)参与调控肉牛骨骼肌发育的分子机制。通过采集布莱凯特黑牛和鲁西黄牛的背最长肌进行sRNA建库,筛选与肉牛骨骼肌发育相关的bta-miR-1,采用生物信息学方法鉴定其保守性和预测其靶基因PAX7;为验证bta-miR-1的功能:在成肌细胞中转染bta-miR-1模拟剂/阴性对照(bta-miR-1 mimic/NC)和bta-miR-1抑制剂/阴性对照(bta-miR-1 inhibitor/NC),48 h后用2%马血清诱导观察肌管分化过程,CCK-8检测细胞增殖率,qRT-PCR检测细胞增殖分化标记基因PCNA、CDK2、Myog、Myod1以及靶基因PAX7的表达量。结果表明,转染bta-miR-1mimic促进肌管分化,降低细胞的增殖率(P<0.01),抑制靶基因PAX7的表达(P<0.01),转染bta-miR-1 inhibitor则抑制肌管分化,增加细胞的增殖率(P<0.05),促进靶基因PAX7表达(P<0.01);在细胞增殖方面,转染bta-miR-1 mimic降低其标记基因PCNA、CDK2的表达量(P<0.01),抑制组则相反;在细胞分化方面,转染bta-miR-1 mimic增加其标记基因Myog、Myod1的表达量(P<0.01),抑制组则相反。综上,bta-miR-1可能通过负调控靶基因PAX7促进成肌细胞分化、抑制成肌细胞增殖而参与骨骼肌的发育过程。

基于手机的家庭CO气体智能报警系统的设计

家里由于CO导致的意外安全事故常常发生,特别是有孩子的家庭,孩子独自在家时的安全问题尤为突显。为了提升安全系数,对家内CO的检测和超标预警的研究具有重要的现实意义。本文基于手机报警策略,采用STC12C5A60S2作为核心处理器,采用半导体MQ-7一氧化碳传感器作为数据采集模块,设计了一种家里CO测量装置,完成了该装置的硬件电路和软件部分设计。设计的CO报警系统具有智能性,同时精度高、性能稳定、反应灵活迅速、使用简单方便,可广泛应用于家里CO的检测和报警。

Formation of Fe_(56)Mn_5Cr_7-Mo_(12)Er_2C_(12)B_6 amorphous steel

The Fe48Cr15Mo14Er2C15B6amorphous steel can hardly be used as an engineering material because of its ex- treme brittleness and very low iron content. By changing the composition of the nonmagnetic amorphous steel, and using the relation between the reduced glass transition tempera- ture Trg and the glass forming ability, a new amorphous Fe56Mn5Cr7Mo12Er2C12B6 alloy with good glass forming abil- ity and high iron content was obtained. The diameter of the as-cast sample rod reached 8 mm. This new amorphous steel has lower manufacturing cost due to its high iron content, and thus it can have wider applications.

Studies on the New Constituents of Sal via Miltiorrhiza Bunge

Two novel constituents were isolated from the roots of Chinese medicinal herbs, Salvia miltiorrhiza. Their structures were determined by spectroscopic technique. The compounds were named 13,14-dihydroxy-15-methyl-benzo[2,3-a]-7,7-dimethyl-12-oxa-tricyclo[4,4,21.4,0]dodecane(1) and 16-methyl-tropono[2,3-c]-7,7-dimethyl-12-oxa-tricyclo[4,4,21.4,0]dodecane(2).

可燃性气体泄漏报警器设计

以STC12C5A60S2单片机为核心,用气敏传感器(MQ-7)设计一可燃气体泄漏报警器。主要由可燃气体传感器、信号处理电路、单片机系统、显示及报警等组成。信号由气敏传感器检测,经过放大电路处理,由单片机内部AD转换器读入单片机,单片机对检测到的信号进行判断并将实测浓度值显示。若气体浓度超过预定数值时,将发出声光报警,同时切断气源,启动排气扇。实现了可燃气体的检测、报警、显示和相应处理功能,具有广泛的应用价值。

基于AOTF高光谱成像系统的采集显示技术研究

为了提高声光可调谐滤波器(AOTF)与CMOS相机结合的新型成像光谱仪的图像采集与显示速率,提出了一种基于AOTF光谱成像的数据快捷处理技术。利用VC++编写的上位机通过USB的控制传输对光学探测接收元件MT9M001C12STM的积分时间、增益进行灵活的配置,并且实时的显示帧率,这样可以保证数据的传输速度和正确性。结果表明,该设计方法不仅可以快速准确的获取目标物进行实时的显示,而且成像质量良好。