Zn-Sn共掺杂Mg_(2)TiO_(4)微波介电陶瓷的制备与表征

本研究分别用微量Zn^(2+)与Sn^(4+)取代Mg_(2)+与Ti^(4+),通过固相反应法制备了Zn-Sn共掺杂Mg_(2)TiO_(4)微波介电陶瓷,并采用阿基米德法、XRD、SEM、EDS及网络分析仪等手段,分析了材料的基本物性和介电特性。基本物性分析结果表明,烧结温度、Zn掺杂量x、Sn掺杂量y等因素对Mg_(2)TiO_(4)的晶体结构无明显影响,烧结致密性随烧结温度的升高呈先增大后减小的趋势,其中在1300℃下烧结所得的(Zn_(0.05)Mg_(0.95))2(Sn_(0.05)Ti_(0.95))O_(4),烧结致密性最佳,达到98%。微波介电特性分析结果表明,Zn-Sn共掺杂Mg_(2)TiO_(4)的介电常数εr与品质因数Q×f值,均随烧结温度的升高而呈先增大后减小的趋势,且其谐振频率温度系数τf具有较好的稳定性,其中在1300℃下烧结所得的(Zn_(0.05)Mg_(0.95))2(Sn_(0.05)Ti_(0.95))O4,εr≈15.55,Q×f≈319690GHz,此时τf≈-52.06×10^(-6)·℃^(-1)。与前人的研究结果比较后可知,本研究制备的(Zn_(0.05)Mg_(0.95))2(Sn_(0.05)Ti_(0.95))O_(4)不仅将烧结温度大幅下降至1300℃,还能将品质因子提升至319690GHz,使其微波介电性能得到有效改善。

Fine-tuning electronic structure of N-doped graphitic carbon-supported Co-and Fe-incorporated Mo_(2)C to achieve ultrahigh electrochemical water oxidation activity

Mo_(2)C is an excellent electrocatalyst for hydrogen evolution reaction(HER).However,Mo_(2)C is a poor electrocatalyst for oxygen evolution reaction(OER).Herein,two different elements,namely Co and Fe,are incorporated in Mo_(2)C that,therefore,has a finely tuned electronic structure,which is not achievable by incorporation of any one of the metals.Consequently,the resulting electrocatalyst Co_(0.8)Fe_(0.2)-Mo_(2)C-80 displayed excellent OER catalytic performance,which is evidenced by a low overpotential of 214.0(and 246.5)mV to attain a current density of 10(and 50)mA cm^(-2),an ultralow Tafel slope of 38.4 mV dec^(-1),and longterm stability in alkaline medium.Theoretical data demonstrates that Co_(0.8)Fe_(0.2)-Mo_(2)C-80 requires the lowest overpotential(1.00 V)for OER and Co centers to be the active sites.The ultrahigh catalytic performance of the electrocatalyst is attributed to the excellent intrinsic catalytic activity due to high Brunauer-Emmett-Teller specific surface area,large electrochemically active surface area,small Tafel slope,and low chargetransfer resistance.

In Situ Reaction Strengthening and Toughening of B_(4)C/TiSi_(2)Ceramics

B_(4)C-SiC-TiB_(2)ceramics were prepared by in situ reactive hot-pressing sintering with TiSi_(2)as an additive.The reaction pathways of TiSi_(2)and B_(4)C were investigated.The sintering was found to be a multistep process.The reaction started at approximately 1000℃,and TiB_(2)was formed first.Part of Si and C started to react at 1300℃,and the unreacted Si melted at 1400℃to form a liquid phase.TiSi_(2)predominantly affected the intermediate sintering process of B_(4)C and increased the sintering rate.Due to the unique reaction process of TiSi_(2)and B_(4)C,a large number of aggregates composed of SiC and TiB_(2)were generated.The results showed that composite ceramics with the optimal flexural strength of 807 MPa,fracture toughness of 3.2 MPa·m1/2,and hardness of 32 GPa,were obtained when the TiSi_(2)content was 10 wt%.

Binary molten salt in situ synthesis of sandwich-structure hybrids of hollowβ-Mo2C nanotubes and N-doped carbon nanosheets for hydrogen evolution reaction

Focused exploration of earth-abundant and cost-efficient non-noble metal electrocatalysts with superior hydrogen evolution reaction(HER)performance is very important for large-scale and efficient electrolysis of water.Herein,a sandwich composite structure(designed as MS-Mo2C@NCNS)ofβ-Mo2C hollow nanotubes(HNT)and N-doped carbon nanosheets(NCNS)is designed and prepared using a binary NaCl–KCl molten salt(MS)strategy for HER.The temperature-dominant Kirkendall formation mechanism is tentatively proposed for such a three-dimensional hierarchical framework.Due to its attractive structure and componential synergism,MS-Mo2C@NCNS exposes more effective active sites,confers robust structural stability,and shows significant electrocatalytic activity/stability in HER,with a current density of 10 mA cm-2 and an overpotential of only 98 mV in 1 M KOH.Density functional theory calculations point to the synergistic effect of Mo2C HNT and NCNS,leading to enhanced electronic transport and suitable adsorption free energies of H*(ΔGH*)on the surface of electroactive Mo2C.More significantly,the MS-assisted synthetic methodology here provides an enormous perspective for the commercial development of highly active non-noble metal electrocatalysts toward efficient hydrogen evolution.

Locked nucleic acid real-time polymerase chain reaction method identifying two polymorphisms of hepatitis B virus genotype C2 infections,rt269L and rt269I

BACKGROUND The presence of two distinct hepatitis B virus(HBV)Pol RT polymorphisms,rt269L and rt269I,could contribute to the unique clinical or virological phenotype of HBV genotype C2.Therefore,a simple and sensitive method capable of identifying both types in chronic hepatitis B(CHB)patients infected with genotype C2 should be developed.AIM To develop a novel simple and sensitive locked nucleic acid(LNA)-real timepolymerase chain reaction(RT-PCR)method capable of identifying two rt269 types in CHB genotype C2 patients.METHODS We designed proper primer and probe sets for LNA-RT-PCR for the separation of rt269 types.Using synthesized DNAs of the wild type and variant forms,melting temperature analysis,detection sensitivity,and endpoint genotyping for LNA-RT-PCR were performed.The developed LNA-RT-PCR method was applied to a total of 94 CHB patients of genotype C2 for the identification of two rt269 polymorphisms,and these results were compared with those obtained by a direct sequencing protocol.RESULTS The LNA-RT-PCR method could identify two rt269L and rt269I polymorphisms of three genotypes,two rt269L types[‘L1’(WT)and‘L2’]and one rt269I type(‘I’)in single(63 samples,72.4%)or mixed forms(24 samples,27.6%)in 87(92.6%sensitivity)of 94 samples from Korean CHB patients.When the results were compared with those obtained by the direct sequencing protocol,the LNA-RT-PCR method showed the same results in all but one of 87 positive detected samples(98.9%specificity).CONCLUSION The newly developed LNA-RT-PCR method could identify two rt269 polymorphisms,rt269L and rt269I,in CHB patients with genotype C2 infections.This method could be effectively used for the understanding of disease progression in genotype C2 endemic areas.

鼓形有机锡氧杂环羧酸簇合物[PhCH_2Sn(O)(O_2CC_4H_3S)]_6·2CH_2Cl_2 和 [PhCH_2Sn(O)(O_2CC_3H_2NO)]_6·2CH_2Cl_2的合成和晶体结构

利用三苄基氧化锡与 2 -噻吩甲酸和 2 -唑甲酸反应 ,合成了六聚体苄基锡氧 2 -噻吩甲酸酯 (1 )和六聚体苄基锡氧 2 -唑甲酸酯 (2 )鼓形簇合物 .通过元素分析、红外光谱和 X射线单晶衍射对其结构进行了表征 .测试结果表明 :化合物 1属三斜晶系 ,空间群 P1 ,a=1 . 2 76 0 (3) nm,b=1 .30 5 6 (3) nm,c=1 .334 3(3) nm,α=1 0 5 .6 5 (3)°,β=96 .2 7(3)°,γ=97.2 0 (3)°,Z=1 ,V=2 .0 997(7) nm3 ,Dc=1 .80 9g/ cm3 ,μ=2 .0 97mm- 1 ,F(0 0 0 ) =1 1 1 6 ,R=0 .0 6 5 1 ,w R=0 .1 2 92 .化合物 2属三斜晶系 ,空间群 P1 ,a=1 .2 2 4 0 (4 ) nm,b=1 .36 73(4 ) nm,c=1 .374 4(4 ) nm,α=1 0 7.76 0 (4 )°,β=98.0 6 9(5 )°,γ=91 .4 80(5 )°,Z=2 ,V=2 .1 6 31 (1 2 ) nm3 ,Dc=3.373g/ cm3 ,μ=3.799mm- 1 ,F (0 0 0 ) =2 1 36 ,R=0 .0 382 ,w R=0 .0 79.它们均为鼓形簇状结构 ,锡原子呈畸变的八面体构型 .化合物 1通过分子间 S… S近距离作用 ,形成一维链状结构 .

三苯基锡(Ⅳ)荒酸盐Ph_3SnS_2CN(C_2H_5)_2的波谱及结构研究

合成了三苯基锡(Ⅳ)N,N-二乙基荒酸盐。通过元素分析、红外光谱和核磁共振氢谱对其结构进行了表征。用X-射线单晶衍射测定了该化合物的晶体结构;结果表明,化合物中锡原子呈五配位畸变三角双锥构型。

SN2D程序在C5G7基准例题上的验证与分析

C5G7基准例题因其具有强烈非均匀性、组件能谱差异大等特点,常用来检验软件计算有效性。在对栅元进行不同的几何等效和对原有的栅元等效均匀化方法进行改进的情况下,采用二维离散纵标法输运计算程序SN2D对C5G7基准例题进行了分析计算,给出了各种计算条件下keff和功率分布的计算误差。结果表明,SN2D程序可应用于C5G7基准例题的求解。计算结果可为求解类似问题时计算程序及条件的选择提供直接参考。

二聚体配合物[(n-Bu)_2Sn(C_(10)H_8N_2O_3)(C_2H_5OH)]_2的合成和晶体结构

The novel seven coordinate complex [(n Bu)2Sn(C10H8N2O3)(C2H5OH)]2 (C10H8N2O32- is the dinegative ion of 2 oxo propionic acid benzoyl hydrazone) was synthesized by the reaction of (n Bu)2SnO with 2 oxo propionic acid benzoyl hydrazone in 1∶ 1 molar ratio in benzene ethanol (V/V, 3/1), and its structure was characterized by X ray single crystal diffraction. The crystal belongs to a tetragonal system with space group I41/a, a=2.4890(2)nm, b=2.4890(2)nm, c=1.5170(3)nm, V=9.398(2)nm3, Z=8, F(000)=3968, Dc=1.366g· cm- 3, and the structure was refined to final R1=0.0530, wR2=0.0971. The structure of the title complex is described as a dimer through weak interactions of Sn… O bonding and hydrogen bond. The tin atoms rendered seven coordination in a distorted pentagonal bipyramid geometry structure, four oxygen atoms [O1, O2, O2# 1 and O4] and one nitrogen atom N2 formed the equatorial plane and C11 Sn1 C15 is the axis. CCDC: 212696.

基于SNS的C2C市场信用改进研究——以淘宝网为例

随着信息技术的发展,C2C电子商务模式市场潜力巨大,但信用问题阻碍了C2C的进一步发展。以真实性为特点的SNS的兴起为C2C的信用评价完善提供了新的解决途径。基于此,本文淘宝网为案例,对SNS影响C2C的信用因素进行探讨,并研究如何基于SNS来实现对C2C信用的改进。

探析我国SNS网站对C2C平台的影响

随着电子商务和网络社区的不断发展,SNS网站成为当前互联网行业倍受关注的热点。它利用本身的高流量和用户粘性,寻找合适的盈利模式,这样必将对C2C平台造成一定的冲击。探讨了C2C平台受到的影响,并提出了相应的对策。

Synthesis and electrochemical properties of Zn_2SnO_4 and Zn_2Sn_(0.8)Ti_(0.2)O_4/C

Compound Zn2Sn0.8Ti0.2O4 was synthesized by a hydrothermal method in which SnCl4-5H2O,TiCl4,ZnCl2 and N2H4-H2O were used as reactants.The composite Zn2Sn0.8Ti0.2O4/C was then prepared through a carbothermic reduction process using the as-prepared Zn2Sn0.8Ti0.2O4 and glucose as reactants.The structure,morphology and electrochemical properties of the as-prepared products were investigated by XRD,XPS,TEM and electrochemical measurements.In addition,electrochemical Li insertion/extraction in composite Zn2Sn0.8Ti0.2O4/C were examined by ex situ XRD and SEM.The first discharge capacity of Zn2SnO4 is about 1670.8 mA-h/g,with a capacity retain of 342.7 mA-h/g in the 40th cycle at a constant current density of 100 mA/g in the voltage range of 0.05-3.0 V.Comparing with the Zn2SnO4,some improved electrochemical properties are obtained for Zn2Sn0.8Ti0.2O4,Zn2SnO4/C and Zn2Sn0.8Ti0.2O4/C.The composite Zn2Sn0.8Ti0.2O4/C shows the best electrochemical properties,and its first discharge capacity is about 1530.0 mA-h/g,with a capacity retain of 479.1 mA-h/g the 100th cycle.

水煤气变换反应作用下的CO和CO_(2)混合物加氢转化制烃和醇--热力学平衡研究

受水煤气变换反应(或其逆反应)的干预,CO(或CO_(2))加氢反应制烃类或醇类化合物经常会遭遇较高的CO_(2)(或CO)选择性,而目标产物烃和醇的选择性往往较低,这使得对相关反应过程的评估显得非常混乱。为此,本工作对水煤气变换反应作用下的CO、CO_(2)及其混合物的加氢转化制烃(以乙烯为例)和醇(以甲醇为例)反应进行了详细的热力学研究。结果表明,对于CO(或CO_(2))加氢反应,水煤气变换(或逆水煤气变换)反应作为连接CO和CO_(2)的连通器,虽然会给CO(或CO_(2))的平衡转化率带来很大的改变并生成大量的CO_(2)(或CO),但其对目标醇和烃产物的碳基平衡收率影响相对较小。CO加氢反应的烃醇产物的碳基平衡收率比CO_(2)加氢反应的高,而CO和CO_(2)混合物加氢的烃醇产物的总碳基平衡收率位于两者之间。对于CO和CO_(2)混合物加氢,尽管CO或CO_(2)的平衡转化率随原料组成的不同有较大幅度的变化,但烃醇产物的总碳基平衡收率变化较为简单,即随着CO_(2)/(CO+CO_(2))摩尔比的增大而线形降低。鉴于CO或CO_(2)加氢过程的尾气均为CO和CO_(2)混合物,用CO和CO_(2)混合物加氢制烃醇或许更为有利;无论CO、CO_(2)还是其混合物的加氢过程,都应以目标产物的碳基总收率作为评估指标。

二维C_(2)N材料在析氢反应中的理论设计

H的吸附自由能与析氢反应中的交换电流密度log(i 0)有强关联相互作用,因此密度泛函理论工作采信基于这样的关联相互作用,可以设计和寻找适合析氢反应的材料。密度泛函理论计算可以帮助我们进行快速筛选在电解水过程中的析氢反应表现优秀的催化材料。本文通过计算发现,过渡金属Cu、Ni、Pd锚定在单层C_(2) N上的催化材料,其氢吸附自由能变化ΔG H分别为0.95 eV、0.80 eV、0.71 eV,C_(2) N上负载Ni的材料接近C_(2) N上负载Pd的材料,这使得非贵金属Ni的单原子材料有可能成为取代贵金属的析氢材料。

{(PhCH_2)_2Sn[2,6-(O_2C)_2C_5H_3N](CH_3OH)}_2的合成及结构

合成了七配位二聚体{(PhCH_2)_2Sn[2,6-(O_2C)_2C_5H_3N](CH_3OH)}_2通过无素分析、红外光谱和核磁共振氢谱对其结构进行了表征,用X-射线单晶衍射测定了该化合物的晶体结构,化合物中两个锡原子呈七配位畸变五角双锥构型。

C2C与SNS结合的服务模式研究

通过对SNS网站引入C2C电子商务服务模式的分析,阐述了SNS网站有助于解决C2C电子商务服务模式中用户之间的信任问题,而C2C服务对于SNS网站也有提高用户黏度和活跃度的作用,并结合国内实际分析了未来SNS网站引入C2C服务模式的条件。

SNS引入C2C的电子商务网站的盈利模式探析

SNS是以网络为互动平台展现现实生活中发生的社会活动,C2C是个人与个人之间的电子商务,当前以C2C与SNS网站为特性的盈利模式都有其瓶颈与缺陷,将SNS引入C2C的电子商务网站的盈利模式研究将有力填补当前C2C与SNS网站各自为战不足与漏洞,有力推动我国电子商务网站盈利模式新形式的创新与突破。在SNS引入C2C的电子商务网站的盈利模式的现实需求的考察基础上,审视当前国内外SNS引入C2C的电子商务网站的盈利模式的理论诉求,并提出SNS引入C2C的电子商务网站的盈利模式的可能切入。

原位反应合成B_(4)C@TiB_(2)粉体及其介电吸波性能

以钛酸四正丁酯和B_(4)C粉体为原料,采用化学包覆结合热处理在B_(4)C表面原位生成TiB_(2),制备了具有核壳结构的B_(4)C@TiB_(2)复合粉体。结果表明,利用原位反应构建了B_(4)C-TiB_(2)核壳界面,使碳化硼由计量比B_(4)C转变为富硼相B_(13)C_(2),使碳化硼产生晶格畸变。因此,当TiB_(2)含量由0%(质量分数)增加至20%(质量分数)时,复合粉体的最低反射损耗值(RL min)由-9.76 dB增至-19.94 dB。这是由于原位生成的TiB_(2)改善了B_(4)C粉体的阻抗匹配性;B_(4)C的晶格畸变增强了偶极子极化,核壳结构增强了界面极化,二者协同作用提高了复合粉体的介电损耗能力,使B_(4)C粉体的电磁波吸收性能得到明显提高。

CO–15%CO_(2)混合气体还原碳化MoO_(2)制备Mo_(2)C的动力学机理分析

对CO–15%CO_(2)混合气体还原碳化MoO_(2)制备Mo_(2)C的反应机理及其动力学展开研究并采用热力学软件FactSage 7.3、场发射扫描电子显微镜(FE-SEM)、X射线衍射(XRD)、热重(TG)、比表面积测试(BET)和模型拟合等手段和方法对实验数据进行分析.结果表明:变温实验中,升温速率越快,MoO_(2)的开始反应温度和完全还原温度越高;恒温实验中,温度越高,MoO_(2)的还原碳化速率越快;反应前后物相组成表明MoO_(2)是经一步反应直接生成Mo_(2)C,没有中间产物金属Mo的生成,并且还发现所得Mo_(2)C基本与MoO_(2)具有一致的片状形貌,但是由于气体的进入与逸出、产物摩尔体积的缩小以及沉积碳的减少,Mo_(2)C颗粒表面会产生微孔和裂纹导致比表面积增长近20倍;动力学分析结果表明该还原碳化过程由形核长大与界面化学反应共同控制,其中形核长大过程占比68.9%,表观活化能为80.651 kJ·mol^(–1);界面化学反应占比31.1%,表观活化能为121.002 kJ·mol^(–1).

Study of differential polymerase chain reaction of C-erbB-2 oncogene amplification in gastric cancer

AIM To study the significance of C-erbB-2 oncogene amplification in gastric cancer.METHODS C-erbB-2 oncogene amplification was examined by using differential polymerase chain reaction (dPCR) in surgical and endoscopic specimens of 83 cases of gastric cancer and 101 metastatic lymph nodes.RESULTS C-erbB-2 amplification was found in 28.9% (24/ 83) surgical specimens and 20.5% (17/ 83) endoscopic ones of gastric cancer patients. The amplification was significant in both types of specimens of advanced cancer cases (P＜0.05) and surgical specimens with lymph node metastasis (P＜0.01). The incidence of C-erbB-2 amplification in lymph nodes with metastasis was higher than in primary sites (surgical specimens, P＜0.05). The patients with amplification tumors had poorer 5-year survival rates than those with unamplification ones in the early cancers and well to moderately differentiated adenocarcinomas (P＜0.05). The same surgical samples were tested again by Southern blot hybridization to ascertain C-erbB-2 amplification, and the positive rate of C-erbB-2 amplification (15.7%) was lower than that of dPCR (28.9%, P＜0.05).CONCLUSION Examining C-erbB-2 amplification by dPCR is a quick, simple, reliable and independent method, and is helpful in predicting prognosis and metastatic potential of gastric cancer.