All Stories

  1. The Academic Tree of Howard V. Malmstadt: From Early Scientific Exploration to Modern Analytical Chemistry
  2. Wavelength Scanning with a Tilting Interference Filter for Glow-Discharge Elemental Imaging
  3. Use of Gradient Dilution to Detect and Correct Matrix Interferences in Inductively Coupled Plasma-Time-of-Flight Mass Spectrometry (ICP-TOFMS)
  4. New inductively coupled plasma for atomic spectrometry: the microwave-sustained, inductively coupled, atmospheric-pressure plasma (MICAP)
  5. Flagging and correcting non-spectral matrix interferences with spatial emission profiles and gradient dilution in inductively coupled plasma-atomic emission spectrometry
  6. Automatable on-line generation of calibration curves and standard additions in solution-cathode glow discharge optical emission spectrometry
  7. Laser-ablation sampling for inductively coupled plasma distance-of-flight mass spectrometry
  8. Afterglow of a microwave microstrip plasma as an ion source for mass spectrometry
  9. Nanopipettes: probes for local sample analysis
  10. Helium conservation by discontinuous introduction in the flowing atmospheric-pressure afterglow source for ambient desorption-ionization mass spectrometry
  11. Flowing Atmospheric-Pressure Afterglow (FAPA), the Plasma-based Source for your ADI-MS Needs
  12. A life well lived: Tribute to Professor Nicoló Omenetto
  13. Use of gradient dilution to flag and overcome matrix interferences in axial-viewing inductively coupled plasma-atomic emission spectrometry
  14. Effect of internal and external conditions on ionization processes in the FAPA ambient desorption/ionization source
  15. Determination of psychostimulants and their metabolites by electrochemistry linked on-line to flowing atmospheric pressure afterglow mass spectrometry
  16. Detection of counterfeit electronic components through ambient mass spectrometry and chemometrics
  17. FTIR ANALYSIS OF FLOWING AFTERGLOW FROM A HIGH-FREQUENCY SPARK DISCHARGE
  18. Zoom-TOFMS: addition of a constant-momentum-acceleration “zoom” mode to time-of-flight mass spectrometry
  19. Measurement and Visualization of Mass Transport for the Flowing Atmospheric Pressure Afterglow (FAPA) Ambient Mass-Spectrometry Source
  20. Constant-Momentum Acceleration Time-of-Flight Mass Spectrometry with Energy Focusing
  21. Electrospray Ionization from Nanopipette Emitters with Tip Diameters of Less than 100 nm
  22. Interleaved Distance-of-Flight Mass Spectrometry: A Simple Method to Improve the Instrument Duty Factor
  23. Halo-Shaped Flowing Atmospheric Pressure Afterglow: A Heavenly Design for Simplified Sample Introduction and Improved Ionization in Ambient Mass Spectrometry
  24. How Constant Momentum Acceleration Decouples Energy and Space Focusing in Distance–of–Flight and Time–of–Flight Mass Spectrometries
  25. Universal Anion Detection by Replacement-Ion Chromatography with an Atmospheric-Pressure Solution-Cathode Glow Discharge Photometric Detector
  26. Spatial Emission Profiles for Flagging Matrix Interferences in Axial-Viewing Inductively Coupled Plasma-Atomic Emission Spectrometry: 1. Profile Characteristics and Flagging Efficiency
  27. Spatial Emission Profiles for Flagging Matrix Interferences in Axial-Viewing Inductively Coupled Plasma-Atomic Emission Spectrometry: 2. Statistical Protocol
  28. First inductively coupled plasma-distance-of-flight mass spectrometer: instrument performance with a microchannel plate/phosphor imaging detector
  29. Determination of trace sodium, lithium, magnesium, and potassium impurities in colloidal silica by slurry introduction into an atmospheric-pressure solution-cathode glow discharge and atomic emission spectrometry
  30. Visualization of mass transport and heat transfer in the FAPA ambient ionization source
  31. Flagging matrix effects and system drift in organic-solvent-based analysis by axial-viewing inductively coupled plasma-atomic emission spectrometry
  32. Visual observations of an atmospheric-pressure solution-cathode glow discharge
  33. Drop-on-Demand Sample Introduction System Coupled with the Flowing Atmospheric-Pressure Afterglow for Direct Molecular Analysis of Complex Liquid Microvolume Samples
  34. Effect of single aerosol droplets on plasma impedance in the inductively coupled plasma
  35. Operating parameters and observation modes for individual droplet analysis by inductively coupled plasma‐atomic emission spectrometry
  36. Extension of the focusable mass range in distance-of-flight mass spectrometry with multiple detectors
  37. Distance-of-Flight Mass Spectrometry: A New Paradigm for Mass Separation and Detection
  38. Surface elemental mapping via glow discharge optical emission spectroscopy
  39. Understanding the Flowing Atmospheric-Pressure Afterglow (FAPA) Ambient Ionization Source through Optical Means
  40. Resolution and Mass Range Performance in Distance-of-Flight Mass Spectrometry with a Multichannel Focal-Plane Camera Detector
  41. Ultrasensitive Ambient Mass Spectrometric Analysis with a Pin-to-Capillary Flowing Atmospheric-Pressure Afterglow Source
  42. Elucidation of Reaction Mechanisms Responsible for Afterglow and Reagent-Ion Formation in the Low-Temperature Plasma Probe Ambient Ionization Source
  43. Spectroscopic plasma diagnostics on a low-temperature plasma probe for ambient mass spectrometry
  44. Evaluation of a fourth-generation focal plane camera for use in plasma-source mass spectrometry
  45. Ambient mass spectrometry: Approaching the chemical analysis of things as they are
  46. First Distance-of-Flight Instrument: Opening a New Paradigm in Mass Spectrometry
  47. Fast transient analysis and first-stage collision-induced dissociation with the flowing atmospheric-pressure afterglow ionization source to improve analyte detection and identification
  48. Correcting distortion in a monochromatic imaging spectrometer for application to elemental imaging by glow discharge-optical emission spectrometry
  49. Algorithm to determine matrix-effect crossover points for overcoming interferences in inductively coupled plasma-atomic emission spectrometry
  50. An electrospray/inductively coupled plasma dual-source time-of-flight mass spectrometer for rapid metallomic and speciation analysis : Part 2. Atomic channel and dual-channel characterization
  51. Atomic spectrometry: 2010
  52. Ionization matrix effects in plasma-based ambient mass spectrometry sources
  53. Characterization of a third-generation Faraday-strip array detector coupled to a Mattauch-Herzog geometry mass spectrograph with a dc-glow discharge ionization source
  54. An electrospray/inductively coupled plasma dual-source time-of-flight mass spectrometer for rapid metallomic and speciation analysis : Part 1. Molecular channel characterization
  55. Use of a nano-electrospray/inductively coupled plasma dual-source time-of-flight mass spectrometer for chromium speciation
  56. Optimization of Ag isotope-ratio precision with a 128-Channel array detector coupled to a Mattauch-Herzog mass spectrograph
  57. Detection of positive and negative ions from a flowing atmospheric pressure afterglow using a mattauch-herzog mass spectrograph equipped with a faraday-strip array detector
  58. Atomic Spectroscopy: Introduction
  59. Evaluation of a 512-Channel Faraday-Strip Array Detector Coupled to an Inductively Coupled Plasma Mattauch−Herzog Mass Spectrograph
  60. Characterization of direct-current atmospheric-pressure discharges useful for ambient desorption/ionization mass spectrometry
  61. Weighing up the future of scientific tools
  62. Remembrances of a special scientist: P.W.J.M. Boumans
  63. Spectrochemical Analysis by Using Discharge Devices with Solution Electrodes
  64. An electrospray/inductively coupled plasma dual-source time-of-flight mass spectrometer for rapid metallomic and speciation analysis: instrument design
  65. Use of an ambient ionization flowing atmospheric-pressure afterglow source for elemental analysis through hydride generation
  66. Fundamental characteristics of plasma-related matrix-effect cross-over points in inductively coupled plasma-atomic emission spectrometry
  67. Microplasma Source Based on a Dielectric Barrier Discharge for the Determination of Mercury by Atomic Emission Spectrometry
  68. Laser Ablation Coupled to a Flowing Atmospheric Pressure Afterglow for Ambient Mass Spectral Imaging
  69. Use of a Solution Cathode Glow Discharge for Cold Vapor Generation of Mercury with Determination by ICP-Atomic Emission Spectrometry
  70. Plasma diagnostic on a low-flow plasma for inductively coupled plasma optical emission spectrometry
  71. Atmospheric Pressure Chemical Ionization Source. 2. Desorption−Ionization for the Direct Analysis of Solid Compounds
  72. Atmospheric Pressure Chemical Ionization Source. 1. Ionization of Compounds in the Gas Phase
  73. In-situ determination of cross-over point for overcoming plasma-related matrix effects in inductively coupled plasma-atomic emission spectrometry
  74. Computerized simulation of solute–particle vaporization in an inductively coupled plasma
  75. Emergence and impact of alternative sources and mass analyzers in plasma source mass spectrometry
  76. Warning indicators for the presence of plasma-related matrix effects in inductively coupled plasma-atomic emission spectrometry
  77. Use of vertically resolved plasma emission as an indicator for flagging matrix effects and system drift in inductively coupled plasma-atomic emission spectrometry
  78. Comment on “Matrix effect of aluminium, calcium and magnesium in axially viewing inductively coupled plasma atomic emission spectrometry” by M. T. Larrea, B. Zaldívar, J. C. Fariñas, L. G. Firgaira and M. Pomares, J. Anal. At. Spectrom., 2008, 23, 145–151
  79. Introduction - A Forward-Looking Perspective
  80. Application of infrared thermography for online monitoring of wall temperatures in inductively coupled plasma torches with conventional and low-flow gas consumption
  81. Continuous Simultaneous Detection in Mass Spectrometry
  82. High-Throughput Elemental Analysis of Small Aqueous Samples by Emission Spectrometry with a Compact, Atmospheric-Pressure Solution-Cathode Glow Discharge
  83. Compact Glow Discharge for the Elemental Analysis of Aqueous Samples
  84. Effect of mass spectrometric sampling interface on the fundamental parameters of an inductively coupled plasma as a function of its operating conditions
  85. Effect of mass spectrometric sampling interface on the fundamental parameters of an inductively coupled plasma as a function of its operating conditions
  86. Investigation of charge transfer with non-argon gaseous species in mixed-gas inductively coupled plasma–atomic emission spectrometry
  87. Development of a Pulsed Radio Frequency Glow Discharge for Three-Dimensional Elemental Surface Imaging. 1. Application to Biopolymer Analysis
  88. Use of electrolyte cathode glow discharge (ELCAD) for the analysis of complex mixtures
  89. The annular glow discharge: a small-scale plasma for solution analysis
  90. Surface elemental mapping using glow discharge—optical emission spectrometry
  91. Atomic Spectroscopy: Introduction
  92. Hadamard Transform Ion Mobility Spectrometry
  93. Characterization of a Second-Generation Focal-Plane Camera Coupled to an Inductively Coupled Plasma Mattauch−Herzog Geometry Mass Spectrograph
  94. Howard Malmstadt – Toward the ideal
  95. Investigation of plasma-related matrix effects in inductively coupled plasma-atomic emission spectrometry caused by matrices with low second ionization potentials—identification of the secondary factor
  96. Phase-resolved detection in ion-mobility spectrometry
  97. Development of a direct current He atmospheric-pressure glow discharge as an ionization source for elemental mass spectrometry via hydride generation
  98. Spectroscopic characterization of ion and electron populations in a solution-cathode glow discharge
  99. Effect of the plasma operating frequency on the figures of merit of an inductively coupled plasma time-of-flight mass spectrometer
  100. Overcoming interferences in inductively coupled plasma mass spectrometry via gas-flow modulation : Part 2. Correlation methods
  101. Overcoming interferences in inductively coupled plasma mass spectrometry via gas-flow modulation : Part 1. Fourier transform methods
  102. A new, versatile, direct-current helium atmospheric-pressure glow discharge
  103. Temporal and spatially resolved laser-scattering plasma diagnostics for the characterization of a ms-pulsed glow discharge
  104. Improved Monochromatic Imaging Spectrometer
  105. Estimation of confidence intervals for radial emissivity and optimization of data treatment techniques in Abel inversion
  106. Electrothermal vaporization coupled with inductively coupled plasma array–detector mass spectrometry for the multielement analysis of Al2O3 ceramic powders
  107. A LabVIEW program for determining confidence intervals of Abel-inverted radial emission profiles
  108. MS Detectors
  109. Design and construction of a mechanically simple, interdigitated-wire ion gate
  110. Directly Digital Flow Controller
  111. A contribution to the study of cooling a vertical-rotary spray chamber in inductively coupled plasma time-of-flight mass spectrometry
  112. Use of rapid gas-flow modulation for improved performance in inductively coupled plasma time-of-flight mass spectrometry
  113. Spectroscopic and electrical studies of a solution-cathode glow discharge
  114. Absolute methods of quantitation in glow discharge mass spectrometry with a time-of-flight mass analyzer
  115. A dual-parameter optical sensor fabricated by gradient axial doping of an optical fibre
  116. Recent advances in detector-array technology for mass spectrometry
  117. Plasma-source mass spectrometry for speciation analysis: state-of-the-art
  118. Simultaneous multichannel mass-specific detection for high-performance liquid chromatography using an array detector sector-field mass spectrometer
  119. Experimental evidence of state-selective charge transfer in inductively coupled plasma-atomic emission spectrometry
  120. Our Remembrances of Howard Malmstadt
  121. Use of a novel array detector for the direct analysis of solid samples by laser ablation inductively coupled plasma sector-field mass spectrometry
  122. Peer Reviewed: Plasma Source TOFMS
  123. Characterization of a Focal Plane Camera Fitted to a Mattauch−Herzog Geometry Mass Spectrograph. 2. Use with an Inductively Coupled Plasma
  124. Fundamental studies on a planar-cathode direct current glow discharge. Part II: numerical modeling and comparison with laser scattering experiments
  125. Fundamental studies on a planar-cathode direct current glow discharge. Part I: characterization via laser scattering techniques
  126. Inductively coupled plasma mass spectrometry and electrospray mass spectrometry for speciation analysis: applications and instrumentation
  127. Using matrix effects as a probe for the study of the charge-transfer mechanism in inductively coupled plasma-atomic emission spectrometry
  128. Coupling of a gas chromatograph to a simultaneous-detection inductively coupled plasma mass spectrograph for speciation of organohalide and organometallic compounds
  129. Design and characterization of a directly polarized radioluminescent light source
  130. Determination of Ca+and K+by pulsed glow discharge sector-field mass spectrometry
  131. Experimental evaluation of analyte excitation mechanisms in the inductively coupled plasma
  132. Effect of sample matrix on the fundamental properties of the inductively coupled plasma
  133. Spatially resolved ground-state number densities of calcium and strontium ion in an inductively coupled plasma in contact with an inductively coupled plasma mass spectrometry sampling interface
  134. Simultaneous or scanning data acquisition? A theoretical comparison relevant to inductively coupled plasma sector-field mass spectrometers
  135. Investigation of wavelength calibration for an echelle cross-dispersion spectrometer
  136. Laser-scattering instrument for fundamental studies on a glow discharge
  137. Development and characterization of an electrostatic quadrupole extraction lens for mass spectrometry
  138. Effect of an inductively coupled plasma mass spectrometry sampler interface on electron temperature, electron number density, gas-kinetic temperature and analyte emission intensity upstream in the plasma
  139. Characterization of a Focal Plane Camera Fitted to a Mattauch−Herzog Geometry Mass Spectrograph. 1. Use with a Glow-Discharge Source
  140. Identification of alloys using single shot laser ablation inductively coupled plasma time-of-flight mass spectrometry
  141. Computerized simulation of aerosol-droplet desolvation in an inductively coupled plasma
  142. Determination of arsenic by hydride generation coupled to time-of-flight mass spectrometry with a gas sampling glow discharge
  143. Advancing the capabilities of a glow-discharge sector-field mass spectrometer
  144. Thomson scattering from analytical plasmas
  145. Thermal imaging of microwave fields inside the surfatron and the microwave plasma torch
  146. Characterization of an argon microwave plasma torch coupled to a Mattauch–Herzog geometry mass spectrometer
  147. Toward a Fuller Understanding of Analytical Atomic Spectrometry.
  148. Factors Affecting the Production of Fast Transient Signals in Single Shot Laser Ablation Inductively Coupled Plasma Mass Spectrometry
  149. Use of an ion guide collision cell to improve the analytical performance of an inductively coupled plasma time-of-flight mass spectrometer
  150. Microwave plasma torch — atmospheric-sampling glow discharge modulated tandem source for the sequential acquisition of molecular fragmentation and atomic mass spectra
  151. Evolution and revolution in instrumentation for plasma-source mass spectrometry
  152. Analytical capabilities of an inductively coupled plasma Mattauch–Herzog mass spectrometer
  153. Standardless Semiquantitative Analysis of Metals Using Single-Shot Laser Ablation Inductively Coupled Plasma Time-of-Flight Mass Spectrometry
  154. Characteristics of a rf-only hexapole ion-guide interface for plasma-source time-of-flight mass spectrometry
  155. Mass analyzers for inductively coupled plasma time-of-flight mass spectrometry
  156. Novel flow injection strategies for study and control of matrix interferences by inductively coupled plasma time-of-flight mass spectrometry
  157. Comparison of simulated and experimental fundamental ICP parameters
  158. Effect of Operating Frequency on Spatial Features of the Inductively Coupled Plasma
  159. A simple approach to deriving an electron energy distribution from an incoherent Thomson scattering spectrum
  160. Gas Sampling Glow Discharge:  A Versatile Ionization Source for Gas Chromatography Time-of-Flight Mass Spectrometry
  161. Electrothermal vaporization for sample introduction into a gas sampling glow discharge time-of-flight mass spectrometer
  162. Time-of-flight mass spectrometry as a tool for speciation analysis
  163. The science of instrumentation and measurements.
  164. Atomic Emission Spectroscopy—It Lasts and Lasts and Lasts
  165. Design and characterization of a radioluminescent temperature sensor
  166. Guest Editorial
  167. Characterization of switched direct current gas sampling glow discharge ionization source for the time-of-flight mass spectrometer
  168. Gas chromatography–inductively coupled plasma time-of-flight mass spectrometry for the speciation analysis of organometallic compounds
  169. Rapid simultaneous multielemental speciation by capillary electrophoresis coupled to inductively coupled plasma time-of-flight mass spectrometry
  170. Methods for shot-to-shot normalization in laser ablation with an inductively coupled plasma time-of-flight mass spectrometer
  171. Inductively Coupled Plasma/Microwave-Induced Plasma Tandem Source for Atomic Emission Spectroscopy
  172. Radioluminescence detector for the flow injection determination of phosphorus as vanadomolybdophosphoric acid
  173. Use of Analyte-Modulated Modal Power Distribution in Multimode Optical Fibers for Simultaneous Single-Wavelength Evanescent-Wave Refractometry and Spectrometry
  174. Focus on analytical spectrometry: A compendium of applied spectroscopy focal point articles (1994–1997) Edited by James A. Holcombe, Gary M. Hieftje, and Vahid Majidi
  175. Characterization of a 22 mm Torch for ICP-AES
  176. Preliminary Investigation of Electrothermal Vaporization Sample Introduction for Inductively Coupled Plasma Time-of-Flight Mass Spectrometry
  177. Use of an air/argon microwave plasma torch for the detection of tetraethyllead
  178. Development of a direct current gas sampling glow discharge ionization source for the time-of-flight mass spectrometer
  179. Plasma-source sector mass spectrometry with array detection
  180. Comparison of digital correlation techniques in time-resolved fluorometry using a radionuclide-scintillation excitation source
  181. Optical waveguide sensors in analytical chemistry: today's instrumentation, applications and trends for future development
  182. Determination of Halogenated Hydrocarbons by Helium Microwave Plasma Torch Time-of-Flight Mass Spectrometry Coupled to Gas Chromatography
  183. Çerenkov Radiation as a UV and Visible Light Source for Time-Resolved Fluorescence
  184. Adapting Selected Nucleic Acid Ligands (Aptamers) to Biosensors
  185. Optical Time-of-Flight Chemical Detection:  Absorption-Modulated Fluorescence for Spatially Resolved Analyte Mapping in a Bidirectional Distributed Fiber-Optic Sensor
  186. Oxygen detection by fluorescence quenching of tetraphenylporphyrin immobilized in the original cladding of an optical fiber
  187. Distributed Fiber-Optic Chemical Sensor with Chemically Modified Plastic Cladding
  188. A simple, highly stable scintillator light source for ultraviolet absorption-based sensors
  189. Computerized simulation of mixed-solute-particle vaporization in an inductively coupled plasma
  190. A Standardized Approach to Collecting and Calculating Noise Amplitude Spectra
  191. Optical Time-of-Flight Chemical Detection:  Spatially Resolved Analyte Mapping with Extended-Length Continuous Chemically Modified Optical Fibers
  192. Near-Ultraviolet Evanescent-Wave Absorption Sensor Based on a Multimode Optical Fiber
  193. Digital cross-correlation technique for fluorescence-lifetime measurement using a radionuclide-scintillation excitation source
  194. Speciation in atomic spectrometry—an oxymoron?
  195. An improved microwave plasma torch for atomic spectrometry
  196. Electrospray Ionization Time-Of-Flight Mass Spectrometer for Elemental Analysis
  197. Scintillator Light Source for Chemical Sensing in the Near-Ultraviolet
  198. Comparison of electron concentrations, electron temperatures, gas kinetic temperatures, and excitation temperatures in argon ICPs operated at 27 and 40 MHz
  199. 12th Asilomar Conference on Mass Spectrometry (ACMS)
  200. Fluorescence Lifetime Measurement via a Radionuclide-Scintillation Light Source and Analog Cross Correlation
  201. Analytical characterization of a planar magnetron radio frequency glow-discharge source
  202. Design and performance of a plasma-source mass spectrograph
  203. Space Charge Evaluation in a Plasma-Source Mass Spectrograph
  204. Continuum background reduction in orthogonal-acceleration time-of-flight mass spectrometry with continuous ion sources
  205. Reducing the Energy Distribution in a Plasma-source Sector-field Mass Spectrometer Interface
  206. Toward the Next Generation of Atomic Mass Spectrometers
  207. Time-of-Flight Mass Spectrometry for Elemental Analysis
  208. An imaging-based instrument for fundamental plasma studies
  209. Studies into the interelement matrix effect in inductively coupled plasma spectrometry
  210. Near-IR Multiplex Bandpass Spectrometer Utilizing Polymer Filters
  211. Use of Shift Reagents to Determine Enantiomers by Near-Infrared Analysis
  212. Kramers–Kronig analysis of molecular evanescent-wave absorption spectra obtained by multimode step-index optical fibers
  213. Laser ablation–inductively coupled plasma mass spectrometry with a time-of-flight mass analyser
  214. The future of plasma spectrochemical instrumentation. Plenary lecture
  215. An introduction to ion optics for the mass spectrograph
  216. Atomization of carbon containing species in the inductively coupled plasma
  217. Simple Near-Infrared Spectrometric Sorption-Based Vapor Sensor
  218. “Tandem” versus “combined” sources in atomic spectrometry
  219. Vapor-generation assisted nebulization for nonmetal determination
  220. Vapor generation of nonmetals coupled to microwave plasma-torch mass spectrometry
  221. A LabVIEW® program for determining electron number density from Stark broadening measurements of the hydrogen-beta line
  222. Design and characterization of a planar magnetron radiofrequency glow discharge source for atomic emission spectrometry
  223. Effect of driving frequency on the operation of a radiofrequency glow discharge emission source
  224. Radio-Frequency-Powered Planar-Magnetron Glow Discharge as a Source for Time-of-Flight Elemental Mass Spectrometry
  225. Space-charge effects and ion distribution in plasma source mass spectrometry
  226. Constant-Fraction Discrimination/Boxcar Integrator for Plasma Source Time-of-Flight Mass Spectrometry
  227. Gas-Sampling Glow Discharge for Optical Emission Spectrometry. Part II: Optimization and Evaluation for the Determination of Nonmetals in Gas-Phase Samples
  228. Low-Volume Diffuse-Transmittance Fiber-Optic Near-IR Spectrophotometer
  229. Near-IR Multiplex Bandpass Spectrometer Utilizing Liquid Molecular Filters
  230. Near-Infrared Measurement of Relative and Absolute Humidity through Detection of Water Adsorbed on a Silica Gel Layer
  231. Lasers for plasma diagnostics, time resolved measurement and molecular fluorometry in analytical science
  232. Investigations of a Magnetically Enhanced Grimm-Type Glow Discharge Source
  233. Scintillator-Based Nanosecond Light Sources for Time-Resolved Fluorimetry
  234. Automated simplex optimization for monochromatic imaging inductively coupled plasma atomic emission spectroscopy
  235. Fundamental studies of mixed-gas inductively coupled plasmas
  236. Fluorimetric Analysis on Individual Nanoliter Sample Droplets
  237. Noise Characterization of the Microwave Plasma Torch (MPT) Source
  238. Easily ionizable element (EIE) interferences in inductively coupled plasma atomic emission spectrometry
  239. Emission features of a conventional radio frequency glow discharge source and a magnetically enhanced source
  240. Gopher: a unidirectional means of distributing spectrochemical resources
  241. Simple, Inexpensive System for Controlled-Dispersion Flow Analysis in Inductively Coupled Plasma Spectrometry
  242. Near-IR Spectroscopic Examination of Thin-Layer Chromatography Plates in the Diffuse Transmittance Mode
  243. New spray chamber for use in flow-injection plasma emission spectrometry
  244. Elemental mass spectrometry using a helium microwave plasma torch as an ion source
  245. The effect of easily ionized elements on analyte emission efficiency in inductively coupled plasma spectrometry
  246. The Heinrich-Emanuel-Merck-Prize
  247. Direct coupling of continuous hydride generation with microwave plasma torch atomic emission spectrometry for the determination of arsenic, antimony and tin
  248. Tomographically resolved ionization temperatures and electron densities in the inductively coupled plasma determined by the line-to-continuum method
  249. Preliminary Design Considerations and Characteristics of an Inductively Coupled Plasma-Time-of-Flight Mass Spectrometer
  250. New Instrumentation for Use in Excitation-Emission Fluorescence-Polarization Measurements
  251. Gas-Sampling Glow Discharge for Optical Emission Spectrometry. Part I: Design and Operating Characteristics
  252. Laser-light scattering instrument for the measurement of solute vaporization rates in analytical flames
  253. Measurement of solute vaporization rates in an analytical flame by laser-light scattering
  254. Evaluation of flow-injection techniques for microwave plasma torch atomic emission spectrometry
  255. Easily ionizable element interferences in inductively coupled plasma atomic emission spectroscopy—I
  256. Design considerations for a pressure-differential tandem source for use in atomic spectrometry
  257. The OH ‘bullet’—a promising spatial reference for the inductively coupled plasma
  258. Evaluation of a linear-flow torch for inductively coupled plasma atomic emission spectrometry
  259. Inductively coupled plasma–microwave induced plasma tandem source for atomic emission spectrometry
  260. Evaluation of an automated on-line method for generating calibration curves in inductively coupled plasma atomic emission spectrometry
  261. A New Spray Chamber for Inductively Coupled Plasma Spectrometry
  262. Technique for Producing Capillaries with Reproducible Orifice Diameters for Uniform Droplet Generation
  263. Acoustically Driven Device for Introducing Solid Samples into an Inductively Coupled Plasma
  264. Simple Method to Measure the Coherence Time of a Mode-Locked Laser
  265. Plasma source mass spectrometry
  266. A LabVIEW®2 program for data collection and calculation of figures of merit
  267. A New Method for Feedback Stabilization of a Microwave Power Supply
  268. Evaluation of a Frequency-Selectable Solid-State Generator for Inductively Coupled Plasma Atomic Emission Spectrometry
  269. Helium-chlorine charge transfer: an explanation for chlorine ion emission behavior in helium discharges
  270. Stereoscopic data visualization: pattern recognition in three dimensions
  271. On the Feasibility of Passive Optical Separation of Scatter and Fluorescence
  272. A Novel Fiber-Optic-Based Pump-Probe Instrument for the Acquisition of Kinetic Information
  273. Selection of solvent load and first-stage pressure to reduce interference effects in inductively coupled plasma-mass spectrometry
  274. On-line gradient calibration for atomic absorption spectrometry
  275. New developments and final frontiers in inductively coupled plasma spectrometry. Plenary lecture
  276. Towards the next generation of plasma source mass spectrometers. Plenary lecture
  277. Plasma source mass spectrometry
  278. Plasma diagnostic techniques for understanding and control
  279. On-line determination of bromide ion in spent brine
  280. Near-Infrared Analysis of Chemical Constituents and Physical Characteristics of Polymers
  281. New Fiber-Optic-Based Instrumentation for the Measurement of Low-Temperature Phosphorescence Intensities and Lifetimes
  282. Investigations of a jet-assisted glow discharge lamp for optical emission spectrometry
  283. Classification of Alloys with an Artificial Neural Network and Multivariate Calibration of Glow-Discharge Emission Spectra
  284. Side-on Photomultiplier Gating System for Thomson Scattering and Laser-Excited Atomic Fluorescence Spectroscopy
  285. Reduction of Acoustic Noise in ICP Emission by the Addition of a Chimney
  286. Effect of Optical-Fiber Length on the Width of a Transmitted Laser Pulse: Comparison of Theoretical Calculations and Experimentally Measured Pulses
  287. Glow-Discharge Atomic Emission Spectrometry with a Spectrally Segmented Photodiode-Array Spectrometer
  288. Multivariate Calibration of a Photodiode Array Spectrometer for Atomic Emission Spectroscopy
  289. The Investigation of a 13-mm Torch for Use in Inductively Coupled Plasma-Mass Spectrometry
  290. Letters
  291. Fundamental and applied investigations in plasma-source mass spectrometry for elemental analysis
  292. A microwave plasma torch assembly for atomic emission spectrometry
  293. Characterization of a spectrally segmented photodiode-array spectrometer for inductively coupled plasma atomic emission spectrometry
  294. Fundamental studies of the sampling process in an inductively coupled plasma mass spectrometer-II
  295. Fundamental studies of the sampling process in an inductively coupled plasma mass spectrometer
  296. Flow-Injection Inductively Coupled Plasma Atomic Emission Spectrometry with a Multielement Photodiode-Array Spectrometer
  297. Feasibility of using liquid crystals for the development of molecularly selective fiber-optic chemical sensors
  298. An Efficient and Inexpensive Ultrasonic Nebulizer for Atomic Spectrometry
  299. The Direct Measurement of Magnetically Induced Optical Rotation in Atomic Vapors
  300. Atomic emission detector for gas chromatography and supercritical fluid chromatography
  301. Characterisation of a 9-mm torch for inductively coupled plasma mass spectrometry
  302. Critical comparison of sources and detection methods in atomic spectrometry
  303. Spatial dependence of ion concentrations in inductively coupled plasma mass spectrometry
  304. Simultaneous Determination of Br− and I− with a Multiple Fiber-Optic Fluorescence Sensor
  305. Fourier transform-atomic emission spectrometry with a Grimm-type glow-discharge source
  306. Verification of a Maxwellian electron-energy distribution in the ICP
  307. Tomographic image reconstruction techniques for spectroscopic sources—II. Instrumentation
  308. Reduction of Mass-Dependent Interferences in Inductively Coupled Plasma-Mass Spectrometry by using Flow-Injection Analysis
  309. A New Liquid-Crystal-Based Fiber-Optic Temperature Sensor
  310. Modification of an ICP Impedance-Matching Network for Center-Grounded Load-Coil Operation
  311. Fiber-optic time-resolved fluorescence sensor for the simultaneous determination of aluminum(3+) and gallium(3+) or indium(3+)
  312. An Investigation of Noise Amplitude Spectra Produced by a Direct-Current Plasma
  313. Convenient Fiber-Optic-Based Sample Cell for Shpol'skii and Low-Temperature Phosphorescence Spectrometry
  314. Correction of Gain and Optical Throughput Variations in a Two-Dimensional Imaging Spectrometer
  315. Comparison of 27- and 40-MHz plasmas in inductively coupled plasma mass spectrometry
  316. Atomic absorption spectrometry—has it gone or where is it going?
  317. Developments in plasma source/mass spectrometry
  318. Spatially resolved measurements as a vehicle for studying atomization mechanisms in an ICP
  319. Noise characteristics of an inductively coupled plasma-mass spectrometer
  320. A new procedure for determination of electron temperatures and electron concentrations by Thomson scattering from analytical plasmas
  321. Luminescence Originating in an Optical Fiber
  322. Toward improved understanding and control in analytical atomic spectrometry
  323. Assessment of the feasibility of determination of cholesterol and other blood constituents by near-infrared reflectance analysis
  324. Simultaneous measurement of spatially resolved electron temperatures, electron number densities and gas temperatures by laser light scattering from the ICP
  325. Flow-injection analysis utilizing a spectrally segmented photodiode-array inductively coupled plasma emission spectrometer—I
  326. Quantile BEAST Attacks the False-Sample Problem in Near-Infrared Reflectance Analysis
  327. Detection of Subpopulations in Near-Infrared Reflectance Analysis
  328. Quantile Analysis: A Method for Characterizing Data Distributions
  329. Detection of negative ions by inductively coupled plasma mass spectrometry
  330. Applications of cellular automata: attractors and fractals in analytical chemistry?
  331. Characterization of microwave-induced plasma as a detector for supercritical fluid chromatography
  332. Evaluation of a supercritical fluid chromatograph coupled to a surface-wave-sustained microwave-induced-plasma detector
  333. Analysis of Intact Tablets by Near-Infrared Reflectance Spectrometry
  334. A Low-Power Surfatron Source for the Atomic-Emission-Spectrometric Detection of Nonmetals in Aqueous Solution
  335. Universal detection of ions by replacement-ion chromatography employing an anion-replacement method and an ultraviolet-visible spectrophotometric detector
  336. A Disposable Liquid Microcell for Near-Infrared Reflectance Analysis
  337. Subsurface Image Reconstruction by Near-Infrared Reflectance Analysis
  338. A New Dual-Channel Frequency-Domain Fluorometer for the Determination of Picosecond Rotational Correlation Times
  339. An Emission-Based Feedback System for Stabilizing an Inductively Coupled Plasma
  340. Trace metal determinations by monitoring modulated magnetically induced optical rotation in atomic vapours
  341. Conference reports
  342. John Ottaway's friends—reflections
  343. An interdisciplinary approach to microinstrumentation
  344. An Interdisciplinary Approach to Microinstrumentation
  345. Detection of ions by replacement-ion chromatography coupled to a microwave-induced nitrogen discharge at atmospheric pressure
  346. Tomographic image reconstruction techniques for spectroscopic sources—I. Theory and computer simulations
  347. Theoretical examination of solute particle vaporization in analytical atomic spectrometry
  348. Rapid-scanning frequency-domain fluorometer with picosecond time resolution
  349. Characterization of replacement-ion chromatography employing cation replacement and flame-spectrometric detection
  350. Characterization and comparison of three fiber-optic sensors for iodide determination based on dynamic fluorescence quenching of Rhodamine 6G
  351. Detection of capsule tampering by near-infrared reflectance analysis
  352. Ionization Temperatures in the Inductively Coupled Plasma Determined by Mass Spectrometry
  353. Spatial Emission Properties of a Surface-Wave-Sustained Plasma (Surfatron) in Helium
  354. Effect of Easily Ionized Elements upon the Spatial Emission Properties of Microwave-Induced Plasmas
  355. Use of the microwave-induced nitrogen discharge at atmospheric pressure as an ion source for elemental mass spectrometry
  356. Fluorescence spectra and lifetimes of several fluorophores immobilized on nonionic resins for use in fiber-optic sensors
  357. Analytical characteristics of an inductively coupled plasma-mass spectrometer
  358. Measurement of true gas kinetic temperatures in an inductively coupled plasma by laser-light scattering. Plenary lecture
  359. Spectral and physical interferences in a new, flexible inductively coupled plasma mass spectrometry instrument
  360. Taming the surfatron
  361. A new frequency‐domain fluorometer for the rapid determination of picosecond rotational‐correlation times
  362. Time-resolved fluorescence with an optical-fiber probe
  363. The use of discharge lamps as directly modulated atom reservoirs for selective line modulation in atomic emission spectrometry
  364. Temporally and spatially resolved studies in an amplitude modulated inductively coupled plasma
  365. Rapid frequency-scanned fiber-optic fluorometer capable of subnanosecond lifetime determinations
  366. The Use of Sample Modulation to Simplify the Experimental Arrangement of Selective Line Modulation in Atomic Emission Spectrometry
  367. A Detailed Study of Noise Sources in Selective Line Modulation Atomic Spectrometry
  368. A Modulated Sample-Introduction System for ICP-Atomic Emission Spectrometry
  369. Morphological Investigation of Solute Particles Trapped from an Air-Acetylene Flame
  370. An Improved Uniform-Size-Droplet Generator
  371. A Novel Light-Scattering Technique to Study Gas-Flow Dynamics in an ICP Torch
  372. A New Technique for the Elimination of Fluorescence Interference in Raman Spectroscopy
  373. Determination of Subnanosecond Fluorescence Lifetimes with a UHF Television Tuner and a cw or Mode-Locked Laser
  374. Use of time resolution to eliminate bilirubin interference in the determination of fluorescein
  375. A Modulated Sample Introduction System for Atomic Emission Spectrometry
  376. Fundamental Studies in the ICP Using a Sinusoidally Modulated Power Input
  377. Theophilus Redwood Lecture. Models, measurements, methods and machines in analytical spectrometry
  378. Atomic spectrometry viewpoint
  379. Software review
  380. Electron temperatures and electron number densities measured by Thomson scattering in the inductively coupled plasma
  381. Twenty-five years of analytical atomic spectroscopy
  382. Preface
  383. The use of sample additives in flame emission spectrometry
  384. A steady-state approach to evaluation of proposed excitation mechanisms in the analytical ICP
  385. INSTRUMENTUNE-UP, A computer program for improving the performance of common laboratory instruments
  386. Unique-sample selection via near-infrared spectral subtraction
  387. Optical imaging spectrometers
  388. Comparison of the helium/oxygen/acetylene and air/acetylene flames as atom sources for continuum-source atomic fluorescence spectrometry
  389. Analytical Characteristics of the Microwave-Induced Nitrogen Discharge at Atmospheric Pressure (MINDAP)
  390. Optimization of Sample Absorbance for Quantitative Analysis in the Presence of Pathlength Error in the IR and NIR Regions
  391. Interferometric Detection of Near-Infrared Nonmetal Atomic Emission from a Microwave-Induced Plasma
  392. Development of a Microwave-Induced Nitrogen Discharge at Atmospheric Pressure (MINDAP)
  393. An Optimization of Detector-Noise-Limited Infrared Multiwavelength Determinations
  394. Analytical Characteristics of a Low-Flow, Low-Power Inductively Coupled Plasma
  395. Near-Infrared Determination of Several Physical Properties of Hydrocarbons
  396. Thomson scattering from an ICP
  397. Novel Techniques for the Determination of Fluorescence Lifetimes
  398. Analytical characteristics of an optimized miniature inductively-coupled plasma source for atomic emission spectrometry
  399. Interferences in a low-flow, low-power inductively coupled plasma
  400. A steady-state approach to excitation mechanisms in the ICP
  401. Vaporization in the absence of ionization of alkali-chloride particles in a laminar air-acetylene flame
  402. An apparatus for measuring Thomson scattering from an inductively coupled plasma
  403. Analytical characteristics of near-infrared nonmetal atomic emission from a helium microwave-induced plasma
  404. Near-infrared nonmetal atomic emission from a helium microwave-induced plasma: element ratio determinations
  405. Identification of Limiting Noise Sources in the Microwave-Induced Nitrogen Discharge at Atmospheric Pressure
  406. A fiber-optic absorption cell for remote determination of copper in industrial electroplating baths
  407. Microdroplet titration apparatus for analyzing small sample volumes
  408. Number of Samples and Wavelengths Required for the Training Set in Near-Infrared Reflectance Spectroscopy
  409. A Comparison of Signal-to-Noise Ratios for Near-Infrared Detectors
  410. Microsample introduction into the microwave-induced nitrogen discharge at atmospheric pressure using a microarc atomizer
  411. Burntgas composition of the heliumoxygenacetylene flame
  412. A New Method for Obtaining Individual Component Spectra from Those of Complex Mixtures
  413. Jet-Impact Nebulization for Sample Introduction in Inductively Coupled Plasma Spectrometry
  414. A detailed consideration of resonance radiation trapping in the argon inductively coupled plasma
  415. Comparison of atomic fluorescence power efficiencies for the helium-oxygen-acetylene and air-acetylene flames
  416. Near-Infrared Reflectance Analysis by Gauss-Jordan Linear Algebra
  417. Modification of a Plasma-Therm Inductively Coupled Plasma Supply to Enable Radio-Frequency Power Modulation
  418. A New Background-Correction Method for Atomic Absorption Spectrometry
  419. Sample introduction into the inductively coupled plasma by a radiofrequency arc
  420. The Use of a Microarc Atomizer for Sample Introduction into an Inductively Coupled Plasma
  421. Mini, micro, and high-efficiency torches for the ICP - toys or tools?
  422. Microdrop sample application in electrothermal atomization for atomic absorption spectrometry
  423. Replacement ion chromatography with flame photometric detection
  424. Approaching the limit in atomic spectrochemical analysis
  425. A Separated Impedance Matcher/Load Coil Assembly for Convenient Spatial Translation of an ICP Torch
  426. A new, directly computer-controlled ph-stat
  427. Reduction of spectral interferences in inductively-coupled plasma emission spectrometry by selective spectral-line modulation
  428. Stochastic Photolysis: A New Method for Measuring Rates of Photosensitive Reactions
  429. Determination of Atomic and Molecular Excited-State Lifetimes Using an Optoelectronic Cross-Correlation Method
  430. Contemporary Topics in Analytical and Clinical Chemistry
  431. A new instrument for time-resolved reduction of scattered radiation in fluorescence measurements
  432. On the significance of radiation trapping in the inductively coupled plasma
  433. Simple and Inexpensive Design for an Isolated Droplet Generator Useful in Studies of Atomization in Flames
  434. Microwave-Supported Discharges
  435. Correlation-Based Approaches to Time-Resolved Fluorimetry
  436. A novel device for the accurate dispensing of small volumes of liquid samples
  437. Correlation-based approaches to time-resolved fluorimetry
  438. Development and characterization of a 9-mm inductively-coupled argon plasma source for atomic emission spectrometry
  439. Lasers in Chemical Analysis
  440. Correction of quenching errors in analytical fluorimetry through use of time resolution
  441. Saturation of energy levels in analytical atomic fluorescence spectrometry—II. Experimental
  442. Characteristics of the background emission spectrum from a miniature inductively-coupled plasma
  443. Effects of gas composition and flame sheathing on the spatial velocity profiles of laminar analytical acetylene flames
  444. Reduction of spectral interferences in flame emission spectrometry by selective spectral-line modulation
  445. An accurate model for sample droplet acceleration in an air—acetylene flame
  446. Vaporization and ionization interferences in a miniature inductively coupled plasma
  447. Measurement and comparison of relative free-atom fractions in the helium-oxygen-acetylene and air-acetylene flames
  448. 5th Australian Symposium on Analytical Chemistry
  449. Hydrodynamic Flow Patterns as a Simple Aid to Effective Inductively Coupled Plasma Torch Design
  450. Experimental studies on spatial distributions of atoms surrounding an individual solute particle vaporizing in an analytical flame
  451. Wide‐bandwidth analog correlator and its application to mode‐locked laser measurements
  452. Time-resolved fluorimetry via a new cross-correlation method
  453. Theoretical study of the spatial distribution of atoms surrounding an individual solute particle vaporizing in an analytical flame
  454. Investigation into the Operating Characteristics of a “Microarc” Atmospheric-Pressure Glow Discharge
  455. Development and characterization of a miniature inductively coupled plasma source for atomic emission spectrometry
  456. Enhancement of pneumatic nebulization efficiency through application of an electric field
  457. Computer identification of infrared spectra by correlation-based file searching
  458. Determination of trace metals by microwave plasma spectrometry with an atmospheric pressure helium discharge
  459. A New, Accurate Method for the Measurement of Rise Velocities in Laminar Flames
  460. New Applications of Lasers to Chemistry
  461. PREFACE
  462. New Laser-Based Methods for the Measurement of Transient Chemical Events
  463. Device for selective spectral-line modulation atomic absorption spectrometry
  464. Flame emission, atomic absorption, and atomic fluorescence spectrometry
  465. Directly digital flow controller with rapid response time and high precision
  466. Contemporary Topics in Analytical and Clinical Chemistry
  467. Contemporary Topics in Analytical and Clinical Chemistry
  468. Correlation Methods in Chemical Data Measurement
  469. Saturation of energy levels in analytical atomic fluorescence spectrometry—I. Theory
  470. Modified microwave-induced plasma discharge chamber
  471. Spectral and noise characteristics of a 300-watt Eimac arc lamp
  472. Calculation of the velocity of a desolvating aerosol droplet in an analytical flame
  473. Physical characterization of the helium-oxygen-acetylene flame as an atom cell for atomic spectrometry
  474. Integrating analog-to-digital converter displaying high signal fidelity and noise immunity
  475. Correction. Selective Spectral-Lines Modulation Technique for High Sensitivity Continuum-Source Atomic Absorption Spectrometry
  476. Contemporary Topics in Analytical and Clinical Chemistry
  477. Selective spectral-line modulation technique for high sensitivity continuum-source atomic absorption spectrometry
  478. Automatic background-correcting spectrometer
  479. Flame emission, atomic absorption, and atomic fluorescence spectrometry
  480. Inexpensive, wavelength-modulated filter flame photometer
  481. An investigation of noise spectra from sheathed and unsheathed air-acetylene flames
  482. Evaluation of unique directly digital computer-controlled and hardware-controlled automatic titrators
  483. New, computer-controlled microwave discharge emission spectrometer employing microarc sample atomization for trace and micro elemental analysis
  484. Vaporization of individual solute particles in flame spectrometry
  485. Influence of flame gas thermal conductivity on atom formation in flame spectrometry
  486. Device for the accurate electronic measurement of microliter sample volumes
  487. Evaluation and application of a new high precision null point analytical technique in flame spectrometry
  488. Cryogenics applied to mass spectrometric trace gas analysis
  489. Digital smoothing of electroanalytical data based on the Fourier transformation
  490. Application of a Wave-Length Modulation Device to Problems concerning Spectrometer Misalignment
  491. New, directly digital automatic titration apparatus
  492. Modulated power supply for hollow cathode light sources
  493. Mechanism of desolvation of sample droplets in flame spectrometry
  494. Signal-to-Noise Enhancement Through Instrumental Techniques
  495. Signal-to-noise enhancement through instrumental techniques. II. Signal averaging, boxcar integration, and correlation techniques
  496. Signal-to-Noise Enhancement Through Instrumental Techniques
  497. Signal-to-noise enhancement through instrumental techniques. 1. Signals, noise, and S/N enhancement in the frequency domain
  498. Burner Design Criteria and Variables Affecting Flashback of Acetylene Flames
  499. New approach to flame spectrometric analysis utilizing isolated droplets of sample solution
  500. Unique system for studying flame spectrometric processes
  501. Rapid and Precise Determination of Carbon Dioxide from Carbonate-Containing Samples Using Modified Dynamic Sorption Apparatus.
  502. Application of Continuous-Flow Apparatus to Thermal Decomposition and Sintering Studies
  503. Multidimensional Ionization Sources for Plasma-Source Mass Spectrometry
  504. Signal-to-Noise Considerations in Fluctuation Analysis Spectroscopic Techniques