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B tissues Chemical disposition of boron in animals and humans total metals cement kiln, feed streams A microwave digestion technique for trace element analysis of industrial furnace feed streams Cr, Ni, As, Pb, Se air particulate materials Microwave digestion and elemental characterization of air pollutants from disposal of munitions Moseman, Robert F. Environ. Health Perspect. Suppl. (1994), 102(Suppl. 7),113-17 (English) Pedersen, Bruce A. Therm. Treat. Radioact., Hazard. Chem., Mixed, Munitions, Pharm. Wastes, Proc. Int. Incineration Conf., 13th (1994), 93-8 Publisher: Univ. Calif., Irvine, Irvine, Calif. (English) Sun, Benjing; Asplund, Matthew; Hill, MaxTherm. Treat. Radioact., Hazard. Chem., Mixed, Munitions, W.; Lee, Milton L.; Mangelson, Nolan F.; Rees, Lawrence B. Cu, Pb, Cr, Cd lyophilized vegetal tissue Validation of microwave dissolution of Blanco, M. J.; Rbio, R.; Tomas, X.; lyophilized vegetal tissue for the subsequent determination of copper, Obiols, J. lead, chromium and cadmium by using atomic absorption spectrometry Pharm. Wastes, Proc. Int. Incineration Conf., 13th (1994), 689- 95 Publisher: Univ. Calif., Irvine, Irvine, Calif. (English) Anal. Proc. (1994), 31(12), 353-6 (English) water, soils, sludges Sample pretreatment by microwaves Bitsch, Roland LaborPraxis (1994), 18(4), 76-81 (German) Tl nickel - based alloys Determination of trace amounts of Saraswati, Rajananda; Desikan, N. R.; J. Anal. At. Spectrom. (1994), 9(11), 1289-91 thallium in nickel-based alloys by electrothermal atomic absorption spectrometry Rao, T. H. (English) Fe, Cu, Cr, Ni, Cd, TiO2 Determination of heavy metals in TiO2 Beer, Bernhard; Heumann, Klaus G. Fresenius' J. Anal. Chem. (1994), 350(4-5), 284-5 Pb, Tl, U with isotope dilution mass spectrometry (English) B, Cr, Fe, Si Ni alloy The determination of B, Cr, Fe, and Si Zehr, Bradley D. At. Spectrosc. (1994), 15(5), 213-15 in Ni alloy (English) Zn, Cd, Pb, Cu citrus leave, apple leaves, Wet digestion using microwave Stryjewska, E.; Rubel, S.; Skowron, A. Chem. Anal. (Warsaw) (1994), 39(4), 491-6 P-alfalfa, cabbage leaves irradiation for mineralization of organic samples before heavy metal determination by differential pulse anodic stripping voltammetry. I. Plant material (English) As, Co, Cr, Hg, Sb, clam, crab, prawn, swamp The accumulation and distribution of Yusof, A. M.; Rahman, N. A.; Biol. Trace Elem. Res. (1994), 43-45, 239-49 Zn, Cd, Cu, Pb cerith,mussel samples, trace metals in some localized marine Wood, A. K. H. (English) sediments, std.:TORT - 1 species total metals concns. cement kilns feedstreams A microwave digestion technique for Pedersen, Bruce A. World <strong>Cem</strong>. (1994), 25(4), 80,82-4 trace elements analysis of industrial furnace feedstreams (English) Pb wine, beer, juice, fruit Determination of lead in wine, other Cabrera, Carmen; Madrid, Yolanda; J. Anal. At. Spectrom. (1994), 9(12), 1423-6 beverages and fruit slurries by flow injection hydride generation atomic absorption spectrometry with online microwave digestion Camara, Carmen (English) Se infant formulas GFAAS determination of selenium in Alegria, A.; Barbera, R.; Farre, R.; Nahrung (1994), 38(4), 382-5 infant formulas using a microwave digestion method Moreno, A. (English) Se biol. tissues, NIST SRM 1577 Square wave cathodic stripping Prasad, Pamidi V. A.; Arunachalam, J.; Electroanalysis (N. Y.) (1994), 6(7), 589-92 voltammetric determination of seleniumGangadharan, S. in small quantities of biological tissues (English) As, Sb, Sn, Bi, Se, Te high carbon alloy steels Robotic microwave digestion for the analysis of alloy steels Ball, C. H. steels Application of flow injection inductively Coedo, Aurora G.; Dorado, M. Teresa std. ref. materials:NIST 361-365, coupled plasma mass spectrometry to ECRM 088, BAS 097 the simultaneous determination of arsenic, antimony, tin, bismuth selenium and tellurium in steels Proc. Chem. Conf. (1992), 44TH 29-39 (English) J. Anal. At. Spectrom. (1994), 9(10), 1111-15 (English) U, metals aquatic environmental systems, Adsorption voltammetric techniques forSander, Sylvia; Henze, Guenter Fresenius' J. Anal. Chem. (1994), 349(8-9), 654-8 polluted water samples the determination of uranium(VI) with 2,5-dichloro-3,6-dihydroxy-1,4benzoquinone as complex forming reagent (English) Al Fe ores and steels One-step microwave digestion Del Monte Tamba, Maria Grazia; Analyst (Cambridge, U. K.) (1994), 119(9), 2081-5 procedures for the determination of Falciani, Roberta; Dorado Lopez, (English) aluminum in steels and iron ores by inductively coupled plasma atomic emission spectrometry Teresa; Gomez Coedo, Aurora Au, Pt - group metals three ref. ores Evaluation of ICP-MS/microwave oven Nowinski, Piotr; Hodge, Vernon At. Spectrosc. (1994), 15(3), 109-14 preparation for the rapid analysis of ore samples for gold and the platinumgroup metals (English) Determination of trace elements in Naohara, Jun; Satou, Akihiko; Kawasaki, Okayama Rika Daigaku Kiyo, A (1993), 29A, 139-48 environmental sample by ICP-MS. (2) Naoyoshi; Oonishi, Satoshi; Yamashita, (Japanese) Analysis of trace elements in biological Eiji; Ishii, Takeshi; Shige, Yoshitsugu reference materials (NIES tea leaves) using ICP-MS metal oxides water Development of continuous flow Kim, Youn Doo; Lee, Gae Ho; Kim, Bull. Korean Chem. Soc. (1994), 15(9), 786-91 microwave digestion procedures for Hyung Seung; Kim, Dong Soo; Park, (English) analysis of trace metal oxides in water Kwang Kyu using ion chromatography W, Ti, Nb, Cr, Ni, Mn, Cu alloy Application of pressurized sample Borszeki, Janos; Halmos, Pal; Gegus, Talanta (1994), 41(7), 1089-93 V, Cu, S, P preparation methods for analysis of steels and copper alloys Erno; Karpati, Peter (English) total Cr, Cd, Zn, Cu, soils, sediments Field Screening of Chromium, Olsen, Khris B.; Wang, Joseph; Setiadji, Environ. Sci. Technol. (1994), 28(12), 2074-9 Pb Cadmium, Zinc, Copper, and Lead in Rossi; Lu, Jianmin Sediments by Stripping Analysis (English) Hg waste samples Mercury analysis by microwave Maw, Richard; Witry, Lynn; Emond, Spectroscopy (Eugene, Oreg.) (1994), 9(6), 39-41 digestion preparation Thomas (English) Cu, Zn, Cd mollusk, fish, crustacean Low-volume microwave digestion of Baldwin, S.; Deaker, M.; Maher, W. Analyst (Cambridge, U. K.) (1994), 119(8), 1701-4 marine biological tissues for the measurement of trace elements (English) Se biol. samples Comparison of two digestion methods Ducros, Veronique; Ruffieux, Daniel; Analyst (Cambridge, U. K.) (1994), 119(8), 1715-17 for the determination of selenium in biological samples Belin, Nicole; Favier, Alain (English) n - alkanes feces A note on the use of alternative Vulich, S. A. Ir. J. Agric. Food Res. (1994), 33(1), 71-3 saponification procedures for the determination of n-alkanes in feces (English) N The Kjeldahl determination of nitrogen: McKenzie, Hugh A. Trends Anal. Chem. (1994), 13(4), 138-44 retrospect and prospect (English) Literatur-MW-Aufschluß 144
metal oxides (Fe, Cu, Zn, Co) water samples The development of continuous flow Kim, Youn Doo; Lee, Gae Ho; Kim, method through microwave oven for Hyung Seung; Kim, Dong Soo; Park, the analysis of metal oxides in water byKwang Kyu ICP-AES J. Korean Chem. Soc. (1994), 38(8), 576-84 (Korean) As, Cd, Pb tuna, salmon, shrimp, walleye, Microwave digestion for the Sheppard, Brenda S.; Heitkemper, Analyst (Cambridge, U. K.) (1994), 119(8), 1683-6 clams, oysters, lobster determination of arsenic, cadmium and Douglas T.; Gaston, Cynthia M. lead in seafood products by inductively coupled plasma atomic emission and mass spectrometry (English) Se mussels Orthogonal array design as a Lan, Wei Guang; Wong, Ming Keong; Analyst (Cambridge, U. K.) (1994), 119(8), 1669-75 chemometric method for the optimization of analytical procedures. Part 2. Four-level design and its application in microwave dissolution of biological samples Chen, Ni; Sin, Yoke Min (English) Se mussels Orthogonal array design as a Lan, Wei Guang; Wong, Ming Keong; Analyst (Cambridge, U. K.) (1994), 119(8), 1659-67 chemometric method for the optimization of analytical procedures. Part 1. Two-level design and its application in microwave dissolution of biological samples Chen, Ni; Sin, Yoke Min (English) arsenate, arsenite, alga Bioaccumulation and excretion of Cullen, William R.; Harrison, Lionel G.; Li Appl. Organomet. Chem. (1994), 8(4), 313-24 monomethylarsonate, arsenic compounds by a marine Hao; Hewitt, Gary (English) dimethylarsinic acid unicellular alga, Polyphysa peniculus plant, tissue Moderated pressure microwave digestion system for preparation of biological samples Al 13 different types of bread, 30 types of fish Se, B plant tissue Closed-vessel microwave acid digestion of foodstuffs and trace aluminum determination by graphite furnace atomic absorption spectrometry Focused microwaves in analytical chemistry. Applications Heltai, Gyorgy; Percsich, Kalman Talanta (1994), 41(7), 1067-72 (English) Yang, Qing; Penninckx, Wim; Smeyers- Verbeke, Johanna J. Agric. Food Chem. (1994), 42(9), 1948-53 (English) Hita, Luis Tec. Lab. (1993), 15(186), 706-11 (Spanish) B plant material, wheat, milk, meat, Boron analysis in biological material: Evans, Susan; Kraehenbuehl, Urs Fresenius' J. Anal. Chem. (1994), 349(6), 454-9 blood plasma microwave digestion procedure and determination by different methods (English) Al, Si, Fe biol. materials: NIST 1547, The use of modified microwave Fridlund, S.; Littlefield, S.; Rivers, J. Commun. Soil Sci. Plant Anal. (1994), 25(7-8), 933-41 UCD 155, UCD 176, UCD 124, digestion /dissolution for the (English) UCD 190 quantitative determination of aluminum silicon, and iron in biological materials by inductively coupled plasma spectrometry biol. samples including milk, Flow-through, microwave-heated Stewart, Laura J. Martines; Barnes, Analyst (Cambridge, U. K.) (1994), 119(5), 1003-10 whole blood, urine digestion chamber for automated sample preparation prior to inductively coupled plasma spectrochemical analysis Ramon M. (English) Fe, Si, Ca, Cr, Mn, Ti, FeSi alloys Multielement analysis of some high Hlavackova, I.; Hlavacek, I. J. Anal. At. Spectrom. (1994), 9(3), 251-5 Zr, Al, Cu, Hf, Ni, Ru silicon content ferroalloys by inductively coupled plasma atomic emission spectrometry (English) Chemical characterization of air Sun, Benjing (1993) 254 pp. Avail.: Univ. Microfilms Int., Order No. pollutants in the ambient environment DA9406305 From: Diss. Abstr. Int. B 1994, 54(9), 4641 and stack emissions using PIXE and other techniques (English) Po plant and animal tissue Recovery of polonium from microwave Towler, P. H.; Smith, J. D. Anal. Chim. Acta (1994), 292(1-2), 209-12 bomb digestions (English) Pb, Cd dust samples Digestion of dust samples in a Feng, Y.; Barratt, R. S. Sci. Total Environ. (1994), 143(2-3), 157-61 microwave oven (English) COD waste water Determining the chemical oxygen Dong, Qinglin; Tian, Hongjun Huanjing Baohu (Beijing) (1992), (11), 35-6 demand by using microwave digestion (Chinese) sugar soil samples Rapid determination of total content of Gao, Qi; Fan, Cailing; Wei, Jianhe Fenxi Huaxue (1994), 22(4), 418 sugar in soil samples using microwaveheating digestion (Chinese) Ru serum, tumor tissues, liver, kidneyFlameless atomic absorption Formento, M. L.; Spadacini, S.; Analusis (1994), 22(3), 158-60 spectrometry after acid microwave digestion : a precise and sensitive method for the determination of ruthenium in biological samples Ceserani, R. (English) aesenite, arsenate, Speciation of arsenic compounds by Le, Xiao Chun; Cullen, William R.; Talanta (1994), 41(4), 495-502 monomethylarsonic HPLC with hydride generation atomic Reimer, Kenneth J. (English) acid, absorption spectrometry and dimethylarsinic acid inductively coupled plasma mass spectrometry detection BaAl2O4, CoO, Inorganic Microwave Digestions Zehr, Bradley D.; VanKuren, Judith P.; Anal. Chem. (1994), 66(13), 2194-6 MoO2, MoO3, ThO2, WO2, W2O5, W4O11, WO3 Incorporating Bases McMahon, Hugh M. (English) Ca, Mg, K, P, Na, plant sample Comparison of microwave digestion , Matejovic, Igor; Durackova, Anna Commun. Soil Sci. Plant Anal. (1994), 25(9-10), 1277-88 Fe, Zn, Cu, Mn wet and dry mineralization, and solubilization of plant sample for determination of calcium, magnesium, potassium, phosphorus, sodium, iron, zinc, copper, and manganese (English) environmental samples Br- samples for a total diet Comparison of microwave digestion Banuelos, G. S.; Akohoue, S. Commun. Soil Sci. Plant Anal. (1994), 25(9-10), 1655-70 with block digestion for selenium and boron analysis in plant tissues (English) Pretreatment methods of Huang, Junxiong Huanjing Huaxue (1994), 13(2), 181-93 environmental samples: current status and progress. Part (2) (Chinese) Determination of Bromide Ions in Food Miyahara, Makoto; Saito, Yukio J. Agric. Food Chem. (1994), 42(5), 1126-31 by Unsuppressed Ion Chromatography with Ultraviolet Detection after Microwave Digestion in a Sealed PTFE Vessel (English) Microwave decomposition of minerals Labrek, Dzh. M. Probopodgot. v Mikrovoln. Pechakh: Teoriya i Prakt., M. under pressure, controlled manually (1991) 269-305 From: Ref. Zh., Khim. 1991, Abstr. No. 24G22 and with robots (Russian) Literatur-MW-Aufschluß 145
Page 1 and 2: Literaturliste Mikrowellenaufschlu
Page 3 and 4: Hg 2+ , MeHg + biol. tissues (CRM 4
Page 5 and 6: Cd, Pb, Cu, Zn, Al trees, soil Volt
Page 7 and 8: trace Hg coal Evaluation of microwa
Page 9 and 10: Ir geol. sample Isotopic homogeniza
Page 11: heavy metals soil amendment,wastewa
Page 15 and 16: RCC, As, Ba, Cd, Cu, Fe, K, Mg, Mn,
Page 17 and 18: Ca, Cu, Fe, Mg, Mn, Zn Microwave de
Page 19 and 20: transition metals air particulate m
Page 21 and 22: Fe, Al, Ca, Mg, K, Na, tree foliage

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