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1.
本文研究了锂、铷、铯三元素在丙酮有机溶剂中的行为,测定条件,干扰离子的影响及消除,使灵敏度分别比在水相中提高为2.5—3.5倍。方法灵敏度高,干扰少,测定范围为0~5PPM,适用于矿石中微量锂、铷、铯三元素同时测定。 相似文献
2.
Philip J. Cameron-Smith 《Journal of Atmospheric Chemistry》2000,37(3):283-297
We have investigated several methods of incorporating laboratorymeasurements of effective cross-sections (quantum yield timesabsorption cross-section) that are non-linear functions oftemperature, pressure, and wavelength, into the Fast-J photolysis codeof Wild et al. (2000). The best method was found to beparameterization of the solar weighted effective cross-section usingthe form of the effective cross-section, with numerical fitting of theparameterization constants. Using this technique on the acetone dataof Gierczak et al. (1998) produces aparameterization which fits all points to within 1%. This methodshould also benefit other photolysis codes with large wavelength bins. 相似文献
3.
浮游植物叶绿素a含量测定方法的比较测定 总被引:63,自引:7,他引:56
本文比较研究了浮游植物叶绿素a含量测定的2种常用方法-国内常用的丙酮萃取分光光度法和国际上较通用的热乙萃取分光光度法。实验结果显示:热乙醇法具有操作简便、快捷、萃取完全,低毒等优点。两种方法有显著统计差异及很好的相关性,其回归方程为:Chla乙醇=1.261Chla丙醇-3.5(R=0.998)。 相似文献
4.
Estelle Turpin Christa Fittschen Alexandre Tomas Pascal Devolder 《Journal of Atmospheric Chemistry》2003,46(1):1-13
We have determined the 2-oxo-propyl CH3C(O)CH2 (sometimes called 1-methylvinoxy or acetonyl) radical yield for the reaction of acetone with OH radical relative to the 2-oxo-propyl yields for the reactions of F- and Cl atoms with acetone using the Discharge Flow technique. The 2-oxo-propyl radical has been monitored by Laser Induced Fluorescence LIF at short reaction times in the systems: OH + acetone (R1), F + acetone (R2), and Cl + acetone (R3). From these measurements we have deduced the branching ratio for the 2-oxo-propyl radical formation in the title reaction to be in the range 0.8 R 1. 相似文献
5.
U. Pöschl J. Williams P. Hoor H. Fischer P. J. Crutzen C. Warneke R. Holzinger A. Hansel A. Jordan W. Lindinger H. A. Scheeren W. Peters J. Lelieveld 《Journal of Atmospheric Chemistry》2001,38(2):115-132
Airborne measurements of acetone were performed overthe tropical rainforest in Surinam(2°–7° N, 54°–58° W, 0–12 kmaltitude) during the LBA-CLAIRE campaign in March1998, using a novel proton transfer reaction massspectrometer (PTR-MS) that enables the on-linemonitoring of volatile organic compounds (VOC) with ahigher proton affinity than water. The measuredacetone volume mixing ratios ranged from 0.1 nmol/molup to 8 nmol/mol with an overall average of 2.6nmol/mol and a standard deviation of 1.0 nmol/mol. Theobserved altitude profile and correlations with CO,acetonitrile, propane and wind direction are discussedwith respect to potential acetone sources. No linearcorrelation between acetone and CO mixing ratios wasobserved, at variance with results of previousmeasurement campaigns. The mean acetone/CO ratio(0.022) was substantially higher than typical valuesfound before. The abundance of acetone appears to beinfluenced, but not dominated, by biomass burning,thus suggesting large emissions of acetone and/oracetone precursors, such as possibly 2-propanol, fromliving plants or decaying litter in the rainforest. 相似文献
6.
Rate constants have been measured for the reactions of hydroxyl radicals with alkyl nitrates and with some oxygen-containing organic compounds by a competitive technique. Mixtures of synthetic air containing a few ppm of nitrous acid, ethylene and the organic substrate were photolysed in a Teflon bag smog chamber. Based on the value k
HO+C2H4}=8.1×10-12 cm3 molecule-1 s-1 the following rate constants were obtained for the hydroxyl radical reactions at 750 Torr and at 303 K in units of 10-12 cm3 molecule-1: CH3ONO2, 0.37±0.09; C2H5ONO2, 0.48±0.20; n-C3H7ONO2, 0.70±0.22; C2H5OH, 3.6±0.4; CH3COCH3, 0.26±0.08; CH3CO2
i-C3H7, 3.0±0.8; CH3CO2
n-C3H7, 2.4±0.2. The results are discussed in relation to the available literature data and the implications of the results are considered in terms of the smog reactivity of these molecules. 相似文献
7.
Re-Os同位素定年中,丙酮萃取法分离Re比传统的阴离子交换法流程简单快速.用本实验室原有丙酮萃取流程纯化的Re溶液可用电感耦合等离子体质谱(ICP-MS)测定,但由于盐量较高(>1 mg/mL)不能直接用于负离子热表面电离质谱(N-TIMS)测定.本文对Re-Os同位素定年方法中原有丙酮萃取分离Re的流程进行改进,将丙酮萃取和碱洗时的氢氧化钠浓度由5 mol/L提高到10 mol/L,有效降低了萃取后的Re溶液中的盐量,由此分离纯化的Re溶液经硝酸和过氧化氢处理,可直接点带用于N-TIMS测定.与阴离子交换分离Re方法相比,改进的丙酮萃取方法操作简单,缩减实验时间,同时有效降低全流程空白至3 ~7 pg,并且1 ng的Re测量信号可达到100 mV以上.经国家一级标准物质(GBW 04436)和实验室铜镍硫化物监控样品(JCBY)验证,利用改进的方法纯化,Re的测定值分别为(17.17±0.50)μg/g和(38.34±0.44) ng/g,与推荐值(17.39±0.32) μg/g和(38.61 ±0.86) ng/g在不确定度范围内完全吻合.目前改进的丙酮萃取方法已经应用于实际样品分析,并取得了长期稳定的良好效果. 相似文献
8.
J. Williams U. Pöschl P. J. Crutzen A. Hansel R. Holzinger C. Warneke W. Lindinger J. Lelieveld 《Journal of Atmospheric Chemistry》2001,38(2):133-166
Data on a variety of organic gases are presented, obtained with a protontransfer mass spectrometer (PTR-MS) operated during the March 1998 LBA/CLAIREairborne measurement campaign, between 60 and 12500 m over the rainforest inSurinam (2° N–5° N, 54° W–57° W). The instrumentcan detect molecules with a proton affinity greater than water, includingalkenes, dialkenes, carbonyls, alcohols, and nitriles. Many such molecules areemitted from the rainforest (e.g., isoprene) or formed from the oxidation ofprimary emissions (e.g., methylvinylketone (MVK) and methacrolein (MACR)).From a comparison with modelled data; the variation with altitude; previouslyreported biogenic emissions and the time and location of the measurement,possible and probable identities for the significant masses encountered in therange 33–140 amu have been deduced.The main observed protonated masses, postulated identities and observedaverage boundary layer mixing ratios over the rainforest were: 33 methanol(1.1 nmol/mol); 42 acetonitrile (190 pmol/mol); 43 multiple possibilities (5.9nmol/mol), 45 acetaldehyde (1.7 nmol/mol), 47 formic acid (not quantified);59 acetone (2.9 nmol/mol), 61 acetic acid (not quantified), 63 dimethylsulphide (DMS) (289 pmol/mol), 69 isoprene (1.7 nmol/mol), 71 MVK + MACR (1.3nmol/mol), 73 methyl ethyl ketone (1.8 nmol/mol), 75 hydroxyacetone (606pmol/mol), 83 C5 isoprene hydroxy carbonylsC5H8O2, methyl furan, and cis 3-hexen-1-ol(732 pmol/mol), 87 C5 carbonyls and methacrylic acid, 95 possibly2-vinyl furan (656 pmol/mol), 97 unknown (305 pmol/mol), 99 cis hexenal (512pmol/mol) and 101 isoprene C5 hydroperoxides (575 pmol/mol). Somespecies agreed well with those derived from an isoprene only photochemicalmodel (e.g., mass 71 MVK + MACR) while others did not and were observed athigher than previously reported mixing ratios (e.g., mass 59 acetone, mass 63DMS). Monoterpenes were not detected above the detection limit of 300pmol/mol. Several species postulated are potentially important sources ofHOx in the free troposphere, e.g., methanol, acetone, methyl ethylketone, methyl vinyl ketone and methacrolein. 相似文献
9.
The room-temperature photodecomposition of acetone diluted with synthetic air was studied at nine wavelengths in the spectral region 250–330 nm. The quantum yields for the products CO2 and CO indicated that it was not possible to suppress secondary reactions sufficiently, even with acetone/air mixing ratios as low as 150 ppmv, to derive from these data primary acetone photodissociation quantum yields. The behavior of CO2 and CO formation nevertheless provides some insight into the mechanism of acetone photodecomposition. When small amounts of NO2 are added to acetone/air mixtures, peroxyacetyl nitrate (PAN) is formed. Quantum yields for PAN are reported. They are better suited to represent primary quantum yields for acetone photodissociation, because PAN is a direct indicator for the formation of acetyl radicals. The data were combined with absorption cross-sections for acetone measured at wavelengths up to 360 nm to calculate photodissociation coefficients applicable to the ground-level atmosphere at 40° northern latitude. Comparison with the rates for the reaction of acetone with OH radicals shows that both processes contribute almost equally to the total acetone losses in the lower atmosphere. The resulting atmospheric life time at 40° northern latitude is 32 days, on average. This value must be considered an upper limit, since it does not take into account acetone losses due to the reaction of excited triplet acetone with oxygen. 相似文献
10.
Timothy J. Wallington Jean M. Andino James C. Ball Steven M. Japar 《Journal of Atmospheric Chemistry》1990,10(3):301-313
The relative rate technique has been used to measure rate constants for the reaction of chlorine atoms with peroxyacetylnitrate (PAN), peroxypropionylnitrate (PPN), methylhydroperoxide, formic acid, acetone and butanone. Decay rates of these organic species were measured relative to one or more of the following reference compounds; ethene, ethane, chloroethane, chloromethane, and methane. Using rate constants of 9.29×10–11, 5.7×10–11, 8.04×10–12, 4.9×10–13, and 1.0×10–13 cm3 molecule–1 sec–1 for the reaction of Cl atoms with ethene, ethane, chloroethane, chloromethane, and methane respectively, the following rate constants were derived, in units of cm3 molecule–1 s–1: PAN, <7×10–15; PPN, (1.14±0.12)×10–12; HCOOH, (2.00±0.25)×10–13; CH3OOH, (5.70±0.23)×10–11; CH3COCH3, (2.37±0.12)×10–12; and CH3COC2H5, (4.13±0.57)×10–11. Quoted errors represent 2 and do not include possible systematic errors due to errors in the reference rate constants. Experiments were performed at 295±2 K and 700 torr total pressure of nitrogen or synthetic air. The results are discussed with respect to the previous literature data and to the modelling of nonmethane hydrocarbon oxidation in the atmosphere.In recent discussions with Dr. R. A. Cox of Harwell Laboratory, UKAEA, we learnt of a preliminary value for the rate constant of the reaction of Cl with acetone of (2.5±1.0)×10–12 cm3 molecule–1 sec–1 measured by R. A. Cox, M. E. Jenkin, and G. D. Hayman using molecular modulation techniques. This value is in good agreement with our results. 相似文献