PMMA/SiO_2透明块体材料的制备及其热性能

以正硅酸乙酯为前驱体,采用无溶剂水解技术,制备出了均一、稳定、透明的SiO_2溶胶,通过透射电子显微镜分析,粒径在100 nm左右;在溶胶中加入甲基丙烯酸甲酯(MMA)和偶氮二异丁腈(AIBN),采用热固化制备了透明的块体PMMA/SiO_2杂化材料,通过差热(DSC)和热重分析(TGA)研究了杂化材料的热性能. DSC结果表明,当体系中的SiO_2质量分数超过20%时,杂化材料无明显的玻璃化转变现象. TGA结果表明,杂化材料的分解温度提高约110 ℃. 透射电子显微镜观察结果表明,无机相均匀分散在有机相中,两相之间没有明显的相分离现象.     

用地面阵列寻找TeV能区γ点源的方法探讨

文中探讨搜寻TeV能区γ点源的方法.讨论利用student变量t判断来自源区及背景区宇宙线事例的统计差别,并由Bayes定理与MonteCarlo模拟相结合计算源区各能段的信号数,推算蟹状星云在TeV能区的γ射线微分能谱     

新型含硫(氧)肟醚衍生物的合成、杀虫活性及其结构活性关系研究

通过1-芳基含硫(氧)酮肟与相应的拟除虫菊醇卤化物在氢氧化钠和相转移催化剂条件下反应或1-芳基含硫(氧)酮肟与相应的拟除虫菊醇卤化物的三乙基季胺盐在氢氧化钠条件下反应, 合成了1-芳基含硫(氧)酮O-苄基肟醚C1～C96共96个化合物. 它们的结构经质谱, 1H NMR, IR和元素分析确证. 生物活性测定结果表明, 该类化合物对鳞翅目和同翅目害虫表现出显著活性, C74和C93对粘虫、叶蝉的活性[LC50/(mg•L－1)]分别为1.4, 0.63和0.31, 1.2. 优于对照药氰戊菊酯.     

超强激光与泡沫微结构靶相互作用提高强流电子束产额模拟研究

利用二维粒子模拟方法,本文研究了超强激光与泡沫微结构镀层靶相互作用产生强流电子束问题.研究发现泡沫区域产生了百兆高斯级准静态磁场,形成具有选能作用的"磁势垒",强流电子束中的低能端电子在"磁势垒"的作用下返回激光作用区域,在鞘场和激光场的共同作用下发生多次加速过程,从而显著提升高能电子产额.还应用单粒子模型,分析了电子在激光场作用下的运动行为,验证了多次加速的物理机理.     

钕掺杂磷酸盐微晶玻璃的制备及表征

利用熔融和晶化技术制备掺钕磷酸盐玻璃陶瓷。 采用差热分析、X射线衍射、扫描电子显微镜、紫外 可见 近红外分光光度计及荧光光谱仪对材料进行表征和分析。 结果表明,在490～540 ℃核化1～2 h,在550 ℃晶化1～3 h,可制得主晶相为Al2SiO5的透明玻璃陶瓷。 其透过率可达69%,晶粒平均尺寸为90 nm,并随热处理时间的增加逐渐增大,但透过率降低。 由于Nd3+在热处理后进入到Al2SiO5晶相中,使荧光谱线在1 056 nm处峰值比原始玻璃强度大。     

Synthesis and Crystal Structure of a Novel Ion-pair Compound Consisting of 1-（4-Bromobenzyl）pyridinium Cation and 7,7,8,8-Tetracyanoquinodimethanide Anion

The title compound [BrBzPy][TCNQ] （BrBzPy^＋=1-（4-bromobenzyl）pyridinium cation, TCNQ = 7,7,8,8-tetracyanoquinodimethanide anion） was synthesized by the reaction of [BrBzPy]Br and LiTCNQ in ethanol solution and its structure was determined by single-crystal X-ray diffraction. The crystal belongs to monoclinic, space group P21/c with a = 14.067（3）, b = 7.3089（14）, c = 23.796（4）A, β = 122.011（9）°, V= 2074.6（7）A^3, Z = 4, C24H15BrN5, Mr = 453.32, Dc = 1.451 g/cm^3,μ = 2.002 mm^-1, S = 1.047, F（000） = 916, R = 0.0398 and wR = 0.0921. The most prominent structural features are the completely segregated stacking columns of the TCNQ- anions and [BrBzPy]^＋ cations. In a TCNQ column, the centroid-to-centroid distances of the neighboring anions of TCNQ are 3.2693 and 4.9464 A, respectively.     

新型Sr（NO3）2的水热合成及其晶体结构

本文以Sr（NO₃）₂和水为原料,采用水热法合成了一种新型的Sr（NO₃）₂结构。利用X-射线单晶衍射对其结构进行了测定,结果表明:该晶体属于立方晶系,Pa-3空间群,α=b=c=0.77402（7）nm,α=β=γ=90.00°,V=0.46372（7）nm³,Z=4,Dc=3.031g/cm³,F（000）=400,R_gt（F）=0.0287,wR_ref（F²）=0.0888。     

会理益门煤矿自备发电厂排污现状监测研究

以国标法为检测标准,对会理益门煤矿煤矸石发电厂进行排污现状监测与检测。通过现场监测、室内分析和数据处理表明:会理益门煤矿自备发电厂处理后的废水各项指标均达到国家《污水综合排放标准》(GB8978-1996)一级排放标准要求;处理后的废气(SO_2)、烟尘的排放浓度均符合国家《火电厂大气污染物排放标准》(GB13223-2003)第3时段煤矸石电站排放标准;厂界噪声各测点的昼夜监测值符合国家《工业企业厂界噪声标准》(GB12348-90)Ⅱ类标准要求。     

Towards understanding the carbon trapping mechanism in copper by investigating the carbon-vacancy interaction

We propose a vacancy trapping mechanism for carbon-vacancy (C-V) complex formation in copper (Cu) according to the first-principles calculations of the energetics and kinetics of C-V interaction. Vacancy reduces charge density in its vicinity to induce C nucleation. A monovacancy is capable of trapping as many as four C atoms to form CnV (n=1,2,3,4) complexes. A single C atom prefers to interact with neighboring Cu at a vacancy with a trapping energy of 0.21 eV. With multiple C atoms added, they are preferred to bind with each other to form covalent-like bonds despite of the metallic Cu environment. For the CnV complexes, C2V is the major one due to its lowest average trapping energy (1.31 eV). Kinetically, the formation of the CnV complexes can be ascribed to the vacancy mechanism due to the lower activation energy barrier and the larger diffusion coefficient of vacancy than those of the interstitial C.     

Substituting group induced structural transformation from 1D zigzag chain to 2D grid network in cyano-bridged dimetallic complexes derived from Mn(Schiff-base) and [Cr(CN)5NO]: Synthesis, crystal structure and magnetic properties

Two cyano-bridged dimetallic complexes derived from Mn^III(Schiff-base) and [Cr^I(CN)₅NO]³⁻, [Mn(3-CH₃)salen]₃[Cr(CN)₅NO]·2.5H₂O (1) and [Mn(5-CH₃)salen]₆[Cr(CN)₅NO]₂·2CH₃OH·16H₂O (2) [salen = N,N′-ethylenebis (salicylideneiminato)dianion] were synthesized and characterized. The reaction conditions of the two complexes are identical. The substituting group (CH₃-) in the salen-type ligands gives different assembly styles for the two complexes, 1D zigzag chain for 1 while 2D grid network for 2. The magnetic investigation indicates the dominant antiferromagnetic interactions between the Mn(III) and Cr(I) mediated by the CN bridge. Due to the weak interchain antiferromagnetic interactions, no magnetic ordering phase was observed in complex 1. Interestingly, complex 2 showed the long range ferrimagnetic magnetic ordering with T_c = 9 K, in contrast to 1. Furthermore, the hysteresis loop confirms the nature of complex 2 as soft ferrimagnet.