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J A Holcombe

Showing results (1-10 of 10) with videos related to

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Analytical Chemistry|June 14, 2011
Thermophoretic collection and analysis of submicrometer ag particles emitted from a graphite tube-type electrothermal vaporizerD Langer, J A Holcombe
Talanta|May 1, 1991
Preconcentration of nickel and cobalt on algae and determination by slurry graphite-furnace atomic-absorption spectrometryM Shengjun, J A Holcombe
Talanta|November 1, 1979
Metal oxide reduction: A low-temperature reaction with graphite in flameless atomic-absorption spectrometryR H Eklund, J A Holcombe
Analytical Chemistry|May 1, 1983
Oxygen ashing and matrix modifiers in graphite furnace atomic absorption spectrometric determination of lead in whole bloodD K Eaton, J A Holcombe
Journal of Hazardous Materials|May 12, 2001
Comparison and evaluation of the synthetic biopolymer poly-L-aspartic acid and the synthetic "plastic" polymer poly-acrylic acid for use in metal ion-exchange systemsT C Miller, J A Holcombe
Analytical Chemistry|June 10, 2010
Atomic absorption, atomic emission, and flame emission spectrometryJ A Holcombe, D C Hassell
The Analyst|October 1, 1995
Cadmium, copper and zinc complexes of poly-L-cysteineH A Autry, J A Holcombe
Analytical Chemistry|June 15, 1988
Atomic absorption, atomic fluorescence, and flame emission spectrometryJ A Holcombe, D A Bass
Analytical Chemistry|March 15, 1989
Evaluation of the metal uptake of several algae strains in a multicomponent matrix utilizing inductively coupled plasma emission spectrometryC A Mahan, V Majidi, J A Holcombe
Analytical Chemistry|September 25, 2001
An in situ study of metal complexation by an immobilized synthetic biopolymer using tapping mode liquid cell atomic force microscopyT C Miller, E S Kwak, M E Howard, et al.
Pageof 1

Showing results (1-10 of 10) with videos related to

Sort By:
Pageof 1
Analytical Chemistry|June 14, 2011
Thermophoretic collection and analysis of submicrometer ag particles emitted from a graphite tube-type electrothermal vaporizerD Langer, J A Holcombe
Talanta|May 1, 1991
Preconcentration of nickel and cobalt on algae and determination by slurry graphite-furnace atomic-absorption spectrometryM Shengjun, J A Holcombe
Talanta|November 1, 1979
Metal oxide reduction: A low-temperature reaction with graphite in flameless atomic-absorption spectrometryR H Eklund, J A Holcombe
Analytical Chemistry|May 1, 1983
Oxygen ashing and matrix modifiers in graphite furnace atomic absorption spectrometric determination of lead in whole bloodD K Eaton, J A Holcombe
Journal of Hazardous Materials|May 12, 2001
Comparison and evaluation of the synthetic biopolymer poly-L-aspartic acid and the synthetic "plastic" polymer poly-acrylic acid for use in metal ion-exchange systemsT C Miller, J A Holcombe
Analytical Chemistry|June 10, 2010
Atomic absorption, atomic emission, and flame emission spectrometryJ A Holcombe, D C Hassell
The Analyst|October 1, 1995
Cadmium, copper and zinc complexes of poly-L-cysteineH A Autry, J A Holcombe
Analytical Chemistry|June 15, 1988
Atomic absorption, atomic fluorescence, and flame emission spectrometryJ A Holcombe, D A Bass
Analytical Chemistry|March 15, 1989
Evaluation of the metal uptake of several algae strains in a multicomponent matrix utilizing inductively coupled plasma emission spectrometryC A Mahan, V Majidi, J A Holcombe
Analytical Chemistry|September 25, 2001
An in situ study of metal complexation by an immobilized synthetic biopolymer using tapping mode liquid cell atomic force microscopyT C Miller, E S Kwak, M E Howard, et al.
Pageof 1