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971.
高速逆流色谱与质谱联用在中药分析中的应用 总被引:10,自引:0,他引:10
高速逆流色谱 ( High- speed countercurrent chromatography,HSCCC)是新型的液 -液分配色谱技术 ,它利用多层螺旋管同步行星式离心运动 ,在短时间内实现样品在互不相溶的两相溶剂系统中的高效分配 ,从而实现样品分离[1] . HSCCC分离纯化后 ,若用 MS离线检测 ,此时须挥发原 HSCCC的溶剂体系 ,才能实现样品转移 ,还可能会带来样品污染 .HSCCC与 MS的联用克服了这些缺陷 ,具有很强的实用价值 .丹参酮 A( Tashinone A)是一种结晶性菲醌类化合物 [2 ] ,在丹参乙醚提取物中含量丰富 .本文采用正己烷 -乙醚 -乙醇 -水体系 ,将 HSCC… 相似文献
972.
Cr/MgO催化剂上乙腈和甲醇选择性合成丙烯腈的研究 总被引:4,自引:0,他引:4
用浸渍法制备了系列MgO负载过渡金属氧化物催化剂,比较了这些催化剂的催化性能,详细考察了Cr/MgO催化剂的活性组份含量、焙烧温度及反应温度等因素对乙腈和甲醇选择性合成丙烯腈的影响。结果表明,对于Cr/MgO催化剂,当负载量3%时催化性能最佳,过高的负载量对生成丙烯腈的选择性影响不大,但乙腈转化率呈下降趋势,焙烧温度对生成丙烯腈选择性的影响不大,但经600℃焙烧的催化剂乙腈转化率最高,随着反应温度提高,乙腈转化率提高,而生成丙烯腈选择性400℃左右出现最高值,CO2-TPD表明,催化剂强吸附碱中心越多,越有利于乙腈和甲醇选择性合成丙烯腈反应,Cr/MgO催化剂中引入Na2O后,提高了乙腈的转化率,而生成丙烯腈的选择性降低。 相似文献
973.
以分子末端带有多官能度活泼端基的PAMAM等为原料 ,通过缩聚反应制备了一类新型体型缩聚物 .借助X射线光电子能谱仪 (XPS)对制备的体型缩聚物进行分析 ,利用其化学分析电子光谱 (ESCA)中碳元素价态的拟合数据判断体型缩聚反应进行的程度 ,数据表明酯基碳 (—COO)拟合峰已基本消失 ,说明其与氨基缩合反应转化为酰胺基 (—CON) ,且反应进行的比较彻底 .通过体型缩聚物在乙醇、正己烷、甲苯、氯仿、异丙醇、乙酸、甲酸、去离子水中进行溶胀试验 ,发现其在甲酸作为溶剂体系中的溶胀比出现最大值 ,根据溶度参数的意义估测体型缩聚物的溶度参数约为δ2 =2 7 6 (MJ m3) 1 2 (即甲酸的溶度参数 ) .对原料PAMAM以及制备的体型缩聚物进行DSC分析 ,发现制备体型缩聚物的玻璃化转变温度 (Tg)有了较大提高 ,从初始原料PAMAM的负值提高到 4 8℃左右 . 相似文献
974.
HongBingJI DuGuiHE JunSONG YuQIAN 《中国化学快报》2004,15(10):1241-1244
Clean liquid oxidation of aldehydes can be accomplished using solid catalyst in the presence of molecular oxygen at room temperature, which is a valuable alternative to traditional counterparts. 相似文献
975.
铜锌超氧化物歧化酶(Cu2Zn2SOD)在汞电极上的吸附研究 总被引:8,自引:0,他引:8
金属氧化还原蛋白质的电化学行为作为生物电化学领域中一个重要的研究内容,受到了广泛的关注犤1~3犦,生物体系一些重要的反应均与基本电荷运动有关,如生物催化、神经传导、光合作用以及呼吸作用等均涉及到一些重要氧化还原蛋白质的氧化还原过程。利用电化学的基本原理和实验方法,不但能在生命体系和有机组织的整体水平上,更主要是能在分子和细胞水平上研究氧化还原蛋白质体系中的电子转移以及氧化态转化的化学本质和规律。铜锌超氧化物歧化酶(Cu2Zn2SOD)是一个二聚体,由两个等同的亚单位组成,每一个亚单位含有咪唑桥联的铜?和锌?离子,催… 相似文献
976.
977.
人参挥发油的提取和分析 总被引:7,自引:0,他引:7
应用GC-MS-DS联机分析人参挥发油是当前较好的方法,但人参挥发油的提取方法和GC-MS条件的选择明显影响人参挥发油这一复杂天然混合物的分离和鉴定。本工作严格控制提取条件,提高了挥发油收率,达0.95%;选择最佳GC-MS条件,鉴定出76种化合物,该法稳定重现性好。 相似文献
978.
With the rapid development of human society, clean energy forms are imperative to sustain the normal operations of various mechanical and electrical facilities under a cozy environment. Hydrogen is considered among the most promising clean energy sources for the future. Recently, electrochemical water splitting has been considered as one of the most efficient approaches to harvest hydrogen energy, which generates only non-pollutant water on combustion. However, the sluggish anodic oxygen evolution reaction significantly restricts the efficiency of water splitting and requires a relatively high cell voltage to drive the electrolysis. Therefore, seeking a thermodynamically favorable anodic reaction to replace the sluggish oxygen evolution reaction by utilizing highly active bifunctional electrocatalysts for the anodic reaction and hydrogen evolution are crucial for achieving energy-efficient hydrogen production for industrial applications. Nevertheless, it is known that the oxygen evolution reaction can be replaced with other useful and thermodynamically favorable reactions to reduce the electrolysis voltage for realizing energy-efficient hydrogen production. Therefore, in this study, we present a bifunctional nickel nanoparticle-embedded carbon (Ni@C) prism-like microrod electrocatalyst synthesized via a two-step method involving the synthesis of a precursor metal-organic framework-74 and subsequent carbonization treatment for methanol oxidation and hydrogen evolution. The interfacial structure consisting of a nickel and carbon skeleton was realized via in situ carbonization. However, the dispersed nickel nanoparticles do not easily aggregate owing to the partition by the surrounding carbon as it would sufficiently expose the active Ni sites to the electrolytes, ensuring fast charge transfer between the catalyst and electrolytes by accelerating the electrochemical kinetics. In the anodic methanol oxidation, the products were detected as carbon dioxide and formate with faradaic efficiencies of 36.2% and 62.5%, respectively, at an applied potential of 1.55 V. Meanwhile, the Ni@C microrod catalyst demonstrated high activity and durability (2.7% current decay after 12 h of continuous operation) toward methanol oxidation, which demonstrates that methanol oxidation precedes oxidation under voltage forces. Notably, the bifunctional catalyst not only exhibits excellent performance toward methanol oxidation but also yields a low overpotential of 155 mV to drive 10 mA∙cm−2 toward hydrogen evolution in 1.0 mol∙L−1 KOH aqueous solution with 0.5 mol∙L−1 methanol at room temperature, which guarantees the hydrogen production efficiency. More importantly, the constructed two-electrode electrolyzer produced a current density of 10 mA∙cm−2 at a low cell voltage of 1.6 V, which decreased by 240 mV after replacing the oxygen evolution reaction with methanol oxidation. 相似文献
979.
Jayeon Hong Sangsub Kim Gyurim Park Yongmoon Lee Hyungchae Kim Sungjin Kim Tae-Woo Lee Changsoon Kim Youngmin You 《Chemical science》2021,12(25):8668
Polymer electroluminescence devices producing circularly polarized luminescence (CP PLEDs) have valuable photonic applications. The fabrication of a CP PLED requires a polymer host that provides the appropriate chiral environment around the emitting dopant. However, chemical strategies for the design of chiral polymer hosts remain underdeveloped. We have developed new polymer hosts for CP PLED applications. These polymers were prepared through a free-radical polymerization of 3-vinylcarbazole with a chiral N-alkyl unit. This chiral unit forces the carbazole repeat units to form mutually helical half-sandwich conformers with preferred (P)-helical sense along the polymer main chain. Electronic circular dichroism measurements demonstrate the occurrence of chirality transfer from chiral monomers to achiral monomers during chain growth. The (P)-helical-sense-enriched polymer interacts diastereoselectively with an enantiomeric pair of new phosphorescent (R)- and (S)-dopants. The magnitude of the Kuhn dissymmetry factor (gabs) for the (P)-helically-enriched polymer film doped with the (R)-dopant was found to be one order of magnitude higher than that of the film doped with the (S)-dopant. Photoluminescence dissymmetry factors (gPL) of the order of 10−3 were recorded for the doped films, but the magnitude of diastereomeric enhancement decreased to that of gabs. The chiral polymer host permits faster energy transfer to the phosphorescent dopants than the achiral polymer host. Our photophysical and morphological investigations indicate that the acceleration in the chiral polymer host is due to its longer Förster radius and improved compatibility with the dopants. Finally, multilayer CP PLEDs were fabricated and evaluated. Devices based on the chiral polymer host with the (R)- and (S)-dopants exhibit electroluminescence dissymmetry factors (gEL) of 1.09 × 10−4 and −1.02 × 10−4 at a wavelength of 540 nm, respectively. Although challenges remain in the development of polymer hosts for CP PLEDs, our research demonstrates that chiroptical performances can be amplified by using chiral polymer hosts.Polymer electroluminescence devices producing circularly polarized luminescence (CP PLEDs) have valuable photonic applications. 相似文献
980.
α,β-Unsaturated ketones are important synthetic intermediates because of their versatile reactivities and many syn-thetic applications of them have been reported in the literature.[1] However, only a few methods for the synthesis of (Z)-α,β-unsaturated ketones are available. The palladium catalyzed coupling reactions of alkenyl copper reagents with acid chlorides afforded (Z)-α,β-unsaturated ketones.[2] The phase transfer catalyzed hydroacylation of allenes with carbon monoxide, decacarbonyldimanganese and methyl iodide gave (Z)-α,β-unsaturated ketones in a stereospecific process. 相似文献