162 resultados para 15-154


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对青藏高原和云贵高原的15种獐牙菜属植物进行了3种苦味苷,即獐牙菜苦苷(swertiamarin)、龙胆苦苷(gentiopicroside)、苦龙苷(amarogentin)、一种黄酮苷-当药黄素(swertisin)、及5种(口山) 山酮苷-芒果苷(mangiferin)、当药醇苷(swertianolin)、7-O-[α-L-吡喃鼠李糖-(1→2)-β-D-吡喃木糖]-1,8-二羟基-3-甲氧基(口山) 山酮(7-O-[α-L-rhamnopyranosyl-(1→2)-β-D-xylopyranosyl]-1,8-dihydroxy-3-methoxyxanthone)、7-O-β-D-吡喃木糖-1,8-二羟基-3-甲氧基(口山) 山酮(7-O-β-D-xylopyranosyl-l,8-dihydroxy-3-methoxyxanthone)、3-O-β-D-吡喃葡萄糖-1,8-二羟基-5-甲氧基(口山) 山酮(3-O-β-D-glucopyranosyl-1,8- dihydroxy-5-methoxyxanth-one)等9种主要药效成分同时进行了高效液相色谱的含量测定(Kromasil C18柱,甲醇-水梯度洗脱,二级管阵列检测);并对其主要药效成分的分布进行了比较。

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近几年随全球变暖和大气污染的加剧,有机气溶胶对气候和环境的影响引起了广泛的关注。其中低分子有机酸由于易溶于水,易挥发等特性可以改变大气颗粒物吸湿性、粒径分布以及形成云凝结核活性,进而改变全球的水循环和辐射平衡,而日益成为大气化学研究的重要内容。低分子有机酸极强的水溶性使雨水成为研究大气有机酸的理想载体。有机酸进入降水后是降雨的酸度重要贡献者,尤其是边远地区有机酸对降水酸度贡献高达65%。传统的大气降水研究主要侧重无机离子,认为硫酸和硝酸是降水酸度的主要贡献者,而忽略对降水中有机组分的研究。以贵阳和重庆等为代表的西南地区是我国酸雨污染的重灾区,该地区是典型喀斯特地形地貌区,生态环境具有极端的脆弱性和破坏后难以恢复性,在该地区研究酸雨形成和影响因素具有特殊的重要意义。本研究选取典型酸雨区(贵阳市)和人为污染较少黔东南州黎平县尚重镇为研究对象,2006-4~2007-4期间,收集大气降水样品221个,测定了大气降水中7种有机酸和主要阴、阳离子。对有机酸对酸雨的贡献及大气降水中无机离子和有机酸的浓度分布、变化规律、主要来源和沉降通量进行研究。主要得到了以下几点认识: 1、建立了离子色谱同时测定雨水中有机酸和无机酸分析条件。以戴安AS11-HC为分离柱、AG11-HC为保护柱,RFC-30淋洗液发生器在线产生KOH淋洗液,主要梯度条件为1mmol ( 0~6min) 、1mmol~30mmol (6~31min)。淋洗液流速1.5ml/min,柱温39℃。此条件下主要有机酸线性相关系数0.9992~0.9999,RSD%≤5%,精密度RSD%≤5%(丙酮酸RSD%=13.8%),样品的加标回收率在80~120%之间,满足分析测试要求。 2、 贵阳市降水样品pH值的分布范围为2.49~6.92,年均值为3.28。雨水酸化率为73.8%,其中pH值小于4.0雨水占样品总数42%。尚重镇降水样品pH值的分布范围为5.01~6.50,年均值为5.83,降水的酸雨率为18.4%。贵阳市酸雨污染仍十分严重,重酸雨尤为突出(pH<4.0),尚重镇酸雨污染较轻。 贵阳市降水样品电导率在10~1028μS/cm之间,平均值为248μS/cm,降水电导率高反映了贵阳市大气污染显著。尚重镇降水样品电导率在2.2~52.8μS/cm之间,平均值为18.1μS/cm,降水电导率低反映大气污染较轻。 3、贵阳市大气降水主要无机离子是SO42-、NO3-、H+、Ca2+、NH4+,雨量加权平均浓度分别为154.1μmol/L、33.9μmol/L、520.7μmol/L、226.4μmol/L和158.3μmol/L。采样期间,贵阳市H+年沉降通量为496.9mmol/m2/yr,夏季H+沉降占全年沉降总量的78%,贵阳市SO42-年沉降通量达到151.5mmol/m2/yr,有195.3mmol/m2/yr的Ca2+沉降。NH4+、Mg2+、Na+、K+、NO3-、Cl-的沉降通量分别为138.7mmol/m2/yr、50.9mmol/m2/yr、26.8mmol/m2/yr、11.4mmol/m2/yr、32.3mmol/m2/yr和12.6mmol/m2/yr。 尚重镇贵阳市大气降水主要无机离子是SO42-、NO3-、Ca2+、NH4+,其雨量加权平均浓度分别为43.1μmol/L、19.3μmol/L、33.0μmol/L和49.5μmol/L。采样期间,尚重镇[H+]年沉降通量为0.5mmol/m2/yr。SO42-、Ca2+和NH4+是发生沉降主要离子,分别为13.9mmol/m2/yr、10.6mmol/m2/yr和15.9mmol/m2/yr。Mg2+、Na+、K+、NO3-、Cl-的沉降通量分别为2.1mmol/m2/yr、5.9mmol/m2/yr、3.0mmol/m2/yr、6.2mmol/m2/yr和3.2mmol/m2/yr。 4、在贵阳市、尚重镇大气降水中共检测出7种低分子有机酸,分别是甲酸、乙酸、草酸、丙酮酸、丙酸、甲烷磺酸和乳酸。其中甲酸、乙酸和草酸是三种主要的有机酸。贵阳市甲酸、乙酸和草酸年平均浓度分别为14.24μmol/L、9.35μmol/L和2.79μmol/L,而在尚重镇它们浓度分别为4.95μmol/L、1.35μmol/L和2.31μmol/L。根据酸平衡常数计算法,贵阳市有机酸对自由酸贡献分别为:甲酸-7.9%,乙酸-4.7%,草酸-6.1%,三种主要有机酸贡献了18.7%的自由酸;尚重镇有机酸对自由酸贡献分别为:甲酸-25.1%,乙酸-7.5%,草酸-25.5%,有机酸对自由酸贡献率为58.1%。贵阳市有机酸占阴离子比值1.7~19.2%,平均值为6.6%。尚重镇有机酸对阴离子的贡献为0.5~92.2%,平均值为13.2%。有机酸对酸雨形成和大气降水化学起不可忽视的重要作用。 采样期间,贵阳市甲酸、乙酸和草酸的湿沉降通量分别为13.5mmol/m2/year 、8.9mmol/m2/year和2.6mmol/m2/year,甲酸和乙酸干沉降通量分别为26.7mmol/m2/year 和14.5mmol/m2/year,干沉降和湿沉降是贵阳市有机酸的主要沉降形式。尚重镇甲酸、乙酸和草酸的湿沉降通量分别为1.59mmol/m2/year 、0.43mmol/m2/year和0.04mmol/m2/year,甲酸和乙酸干沉降通量分别为0.1mmol/m2/year 和0.17mmol/m2/year,湿沉降是尚重镇有机酸的主要沉降形式。 5、尚重镇大气降水有机酸生长季节浓度高于非生长季节浓度,说明生长植物或土壤的释放可能是尚重镇大气有机酸的主要来源。贵阳市大气降水中有机酸非生长季节浓度高于生长季节浓度,主要原因是贵阳市降雨主要发生在夏季,降雨量的增加加大了对大气中微量气体的淋滤作用,降低了大气中有机酸浓度,同时夏季降雨pH值较低也不利于雨水对大气有机酸的溶解吸收。气象条件是影响有机酸浓度的重要因素。贵阳市大气有机酸主要在降雨初期进入降水并被清除的,降雨初期(1~2h)对大气有机酸清除占总清除的50~80%。随降雨的进行雨水中有机酸浓度逐渐降低,降雨后期略有升高,大降雨量对雨水中有机酸浓度起稀释的作用。尚重镇降雨量对有机酸浓度影响作用不明显,说明有机酸浓度不受雨量稀释作用控制,在降雨过程可能存在有机酸的液相来源。不同来源气团对贵阳市雨水中有机酸浓度影响不同,其中以北面方向气团降水中有机酸最高,与我国内陆大气污染较重有关。而源于海洋方向的东南气团雨水中有机酸浓度最低。 6、利用统计分析方法(相关性分析、主成分分析和聚类分析)和有机酸来源判别方法结合不同的来源释放有机酸通量得出:尚重镇大气中有机酸主要来源植物或者土壤直接或间接释放,而贵阳市有机酸来源相对复杂,其中植物的直接释放和机动车辆尾气排放不是大气有机酸的主要来源,生物质燃烧直接释放以及植物和人类活动向大气排放大量的不饱和有机物大气氧化可能是大气有机酸的重要来源。 7、从大气降水的电导率和pH值对比来看,贵阳市大气污染严重,雨水酸化率高,尚重镇大气污染较轻,雨水酸化率低。贵阳市大气降水中水溶性离子浓度是尚重镇的2~5倍左右,尚重镇地区酸沉降只有贵阳市0.1%,酸沉降对尚重镇不会造成太大影响。有机酸占贵阳市大气降水自由酸的19%,而尚重镇有超过1/2的自由酸是来源于低分子有机酸,是边远地区大气降水酸度的主要贡献者。来源分析表明尚重镇有机酸主要为生物源,贵阳市有机酸为人为源和生物源并重。 8、 传统的大气降水化学研究主要侧重于无机离子的研究,而忽略了对大气降水中有机组分的研究。本文第一次较全面、系统的研究了西南典型酸雨污染区大气降水化学组成以及降水酸度的来源,指出有机酸组分是西南地区大气降水化学的重要组成部分,对酸雨形成有不可忽视的影响。

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Ti-substituted mesoporous SBA-15 (Ti-SBA-15) materials have been synthesized by using a new approach in which the hydrolysis of the silicon precursor (tetramethoxysilane, TMOS) is accelerated by fluoride. These materials were characterized by powder X-ray diffraction patterns (XRD), X-ray fluorescence spectroscopy (Y-RF), N-2 sorption isotherms, diffuse-reflectance UV-visible (UV-vis) and UV-Raman spectroscopy, Si-29 MAS NMR, and the catalytic epoxidation reaction of styrene. Experiments show that Ti-SBA-15 samples of high quality can be obtained under the following conditions: F/Si greater than or equal to 0.03 (molar ratio), pH less than or equal to 1.0, aging temperature less than or equal to 80 degreesC, and Ti/Si less than or equal to 0.01. It was found that the hydrolysis rate of TMOS was remarkably accelerated by fluoride, which was suggested to play the main role in the formation of Ti-SBA-15 materials of high quality. There is no stoichiometric incorporation of Ti, and the Ti contents that are obtained are quite low in the case of the approach that is proposed. The calcined Ti-SBA-15 materials show highly catalytic activity in the epoxidation of styrene.

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Iron-substituted SBA-15 (Fe-SBA-15) materials have been synthesized via a simple direct hydrothermal method under weak acidic conditions. The powder X-ray diffraction (XRD), NZ sorption and transmission electron microscopy (TEM) characterizations show that the resultant materials have well-ordered hexagonal meso-structures. The diffused reflectance UV-vis and UV resonance Raman spectroscopy characterizations show that most of the iron ions exist as isolated framework species for calcined materials when the Fe/Si molar ratios are below 0.01 in the gel. The presence of iron species also has significant salt effects that can greatly improve the ordering of the mesoporous structure. Different iron species including isolated framework iron species, extraframework iron clusters and iron oxides are formed selectively by adjusting the pH values of the synthesis solutions and Fe/Si molar ratios. (c) 2005 Elsevier Inc. All rights reserved.

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Highly ordered SBA-15 silicas with large cylindrical mesopores (similar to 15 nm) are successfully obtained with the help of NH4F by controlling the initial reaction temperatures in the presence of excess amounts of alkanes.

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Copper nanoparticles were deposited onto mesoporous SBA-15 support via two different routes: post-grafting method and incipient wet impregnation method. Both XRD and TEM reveal that the post-grafting can make Cu particles very small in size and highly dispersed into channels of SBA-15, while the impregnation method mainly forms large Cu particles on the external surface of SBA-15. TPR experiments show that CuO species formed by the post-grafting method is more reducible than that prepared by the impregnation method. The catalytic activity tests for CO oxidation manifests that the sample prepared by the post-grafting method has a much higher activity than that prepared by the impregnation method, with a lowering of 50 degrees C for T-50, showing a strong dependence of catalytic activity on the size and dispersion of Cu particles. Besides the preparation procedure, other factors including calcination temperature, reduction treatment, copper loading as well as the feed composition, have an important effect on the catalytic activity. The best performance was obtained when the catalyst was calcined at 500 degrees C and reduced at 550 degrees C. The calcination and reduction treatment at high temperature have been found to be necessary to completely remove the organic residue and to generate active metallic copper particles. (c) 2005 Elsevier B.V. All rights reserved.

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A new mesoporous sphere-like SBA-15 silica was synthesized and evaluated in terms of its suitability as stationary phases for CEC. The unique and attractive properties of the silica particle are its submicrometer particle size of 400 nm and highly ordered cylindrical mesopores with uniform pore size of 12 nm running along the same direction. The bare silica particles with submicrometer size have been successfully employed for the normal-phase electrochromatographic separation of polar compounds with high efficiency (e.g., 210 000 for thiourea), which is matched well with its submicrometer particle size. The Van Deemeter plot showed the hindrance to mass transfer because of the existence of pore structure. The lowest plate height of 2.0 mu m was obtained at the linear velocity of 1.1 mm/s. On the other hand, because of the relatively high linear velocity (e.g., 4.0 mm/s) can be generated, high-speed separation of neutral compounds, anilines, and basic pharmaceuticals in CEC with C-18-modified SBA-15 silica as stationary phases was achieved within 36, 60, and 34 s, respectively.