STANDARD INSTRUMENTATION
Transcript of STANDARD INSTRUMENTATION
™ Α Γ Π Β ATLAS sulfur Syslern, ^ °"h 0 < ,S :
cor technical information and app assistance contact: 9 4 4 1 Baythorne Drwe ^
Houston. T e^| / 462-6116 ^
Tracer Mta* Houston, Texas " 6
FAX: 713/462-1831
S e e Us at Pittcon '89 Booths 1 4 4 1 , 1 4 4 3 , 1 4 4 5 , 1 4 4 7
CIRCLE 175 ON READER SERVICE CARD
This all new 'chemical instrument' represents state-of-the-art in material quantity measurement! The AVOGADRO MOLMETER provides the possibility to prepare a solution of a given concentration directly into any container placed on the pan. A direct measurement of mass when preparing solutions — much more precise than measurement of volume. Save time and money with elimination of any manual errors in solution preparation or effects of temperature changes. For more information, call, write or Telex... TODAY! STANDARD INSTRUMENTATION
3322 Pennsylvania Ave. Charleston, WV 25302 USA Phone: 304 345-4727 Telex: 907040
PlttCon Booths #1851, 1853, and 1855. CIRCLE 164 ON READER SERVICE CARD
PITTCON
11:05 (1264) A Rapid Sensitive Method for the Simultaneous Analysis of Ascorbic Acid and Sulfite In Foods and Beverages—Μ Κ. WATKINS. Alltech Assoc./Wescan Instru., H.-J. Kim
11:25 (1265) Detection of Pork and Lard as Adulterants In Processed Meat: LC Analysis of Triglycerides—Τ SAEED, Kuwait Inst, for Scientific Res., S. Ali, H.A. Rahman, W. Sawaya
11:45 (1266) HPLC Trace Analysis of Mycotoxlnsln Foods—PA. PERR0NE, The Perkin-Elmer Corporation, B. Cuenoud, F.L Vandemark
Mass Spectrometry VII—ICP
Thursday Morning, Room 266 N.J. Jensen, Presiding Phillip Morris
8:30 (1267) Acceptability and Comparability of ICP-MS to ICP-AES and GFAA for the Analysis of Samples Under the Superfund, Contract Laboratory Program (CLP), USEPA—M HURD, EPA-HQ, L. Butler, R. McCallister
8:50 (1268) Quantification of Neodymium In Lanthanum Compounds at Sub-ppb Levels Using Inductively Coupled Plasma Mass Spectrometry/lsotope Dilution—ES. BEARY, National Bureau of Standards, P.J. Paulsen
9:10 (1269) Analytical Characteristics of a Direct Sample Insertion Device for Inductively Coupled Plasma-Mass Spectrometry—G. H0RLICK, University of Alberta, V. Karanassios
9:30 (1270) Ouadrupole Based ICPMS - The Way Forward in Routine Elemental Analysis—J.S. GORDON. VG Elemental Ltd., R.C. Hutton, D. Kirby. D.J. Mills
9:50 (1271) The Effect of Wet and Dry Aerosol in ICP/MS—Optimum Sample Introduction—G. ZHU Georgia Institute of Technology, C. Pan, R.F. Browner
10:10 RECESS 10:25 (1272) Measurement Capability of an Optical Emission Channel on
An Inductively Coupled Plasma-Mass Spectrometer—G H0RLICK, University of Alberta, K. Lepla, MA. Vaughan
10:45 (1273) Characterization of Inductively Coupled Plasma-Mass Spectrometry Using Mixed Gas Plasmas—G. H0RLICK, University of Alberta. J. Lam
11:05 (1274) High Resolution Analysis In ICP-MS-N. BRADSHAW, VG Elemental Ltd., P.D. Blair, D. Kirby
11:25 (1275) Laser Ablation ICPMS - Towards Improved Precision—C.T. TYE, VG Elemental Ltd., D. Gregson, P.D. Blair, NE. Sanderson, A. Kinsella, R. Henry
11:45 (1276) Studies on Analyte Particle Characteristics and Transport In Inductively Coupled Plasma-Mass Spectrometry with Graphite Furnace Electrothermal Vaporization (ETV-ICP-MS) Sample Introduction—V.I. NWOGU. Georgia Institute of Technology, G. Zhu. R.F, Browner
Mass Spectrometry VIM—LCMS
Thursday Morning, Room 368 F. W. McLafferty, Presiding Cornell University
8 30 (1277) Particle Beam Packed-Column SFC/MS Determination of Biologically and Environmentally Important Compounds—J. ΗΕΝΙ0Ν, NY State College of Vet. Med., S. Steffenrud
8:50 (1278) Mass Spectrometry and MS/MS of Large Blomolecules with Electrospray ionization—J.A. LOO, Pacific Northwest Lab., H R Udseth, R.D. Smith
9:10 (1279) Thermally Assisted Nebulizatlon for Electrospray LC/MS—E. LEE, NY State College of Vet. Med., J. Henion, T. Covey
9:30 (1280) Fused-SIIIca Thermospray LCMS Vaporizer Offers High Performance and Convenience—S MAZER, Hewlett-Packard Company, S. Hansen, H. Loucks
9:50 (1281) New Soft Ionization Techniques Based on Properties of Supercritical Fluids—S.V. 0LESIK, The Ohio State University, W.C. Larkins, Jr.
10:10 RECESS
10:25 (1282) Interfacing the Ion Trap Detector to Supercritical Fluid Extraction with Gas Chromatography as the Separation Technique—MR ANDERSEN, Lee Scientific, B.E. Richter, J.T. Swanson
10:45 (1283) Different Approaches to Chromatographic Methods Development for LC-MS—C.C STACEY, Waters Chrom. Div. Millipore Corp., M.P. Balough, E.G. Cassis
11 05 (1284) Qualitative Comparison of Spectra Produced by the MAGIC-LC/MS and the Direct Insertion Probe, a Study in the Enhanced Spectra Given for Thermally Labile and Somewhat Involatlle Compounds by MAGIC-LC/MS— W.E. HARRIS. Georgia Institute of Technology, J.D. Kirk. R.F. Browner
11:25 (1285) Physlco-Chemical Processes in Particle Beam LC/MS—A. APFFEL, Hewlett-Packard Company, L. Frazier
11:45 (1286) Enhanced Capabilities of the ThermaBeam, Particle Beam LC/MS—R.C. WILL0UGHBY, Extrel Corporation, J.D. Buchner, E.W. Sheehan
2 2 2 A · A N A L Y T I C A L CHEMISTRY, V O L . 6 1 , NO. 3, FEBRUARY 1, 1989