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Results:
1-14
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Results: 14
Authors:
Fesenko, EA
Barnes, PA
Parkes, GMB
Brown, DR
Naderi, M
Citation: Ea. Fesenko et al., A new approach to the study of the reactivity of solid-acid catalysts: Theapplication of constant rate thermal analysis to the desorption and surface reaction of isopropylamine from NaY and HY zeolites, J PHYS CH B, 105(26), 2001, pp. 6178-6185
Authors:
Tiernan, MJ
Barnes, PA
Parkes, GMB
Citation: Mj. Tiernan et al., Reduction of iron oxide catalysts: The investigation of kinetic parametersusing rate perturbation and linear heating thermoanalytical techniques, J PHYS CH B, 105(1), 2001, pp. 220-228
Authors:
Tiernan, MJ
Fesenko, EA
Barnes, PA
Parkes, GMB
Ronane, M
Citation: Mj. Tiernan et al., The application of CRTA and linear heating thermoanalytical techniques to the study of supported cobalt oxide methane combustion catalysts, THERMOC ACT, 379(1-2), 2001, pp. 163-175
Authors:
Parkes, GMB
Barnes, PA
Bond, G
Charsley, EL
Citation: Gmb. Parkes et al., Qualitative and quantitative aspects of microwave thermal analysis, THERMOC ACT, 356(1-2), 2000, pp. 85-96
Authors:
Parkes, GMB
Barnes, PA
Charsley, EL
Reading, M
Abrahams, I
Citation: Gmb. Parkes et al., Real-time analysis of peak shape: a theoretical approach to sample controlled thermal analysis, THERMOC ACT, 354(1-2), 2000, pp. 39-43
Authors:
Parkes, GMB
Bond, G
Barnes, PA
Charsley, EL
Citation: Gmb. Parkes et al., Development of a new instrument for performing microwave thermal analysis, REV SCI INS, 71(1), 2000, pp. 168-175
Authors:
Tiernan, MJ
Barnes, PA
Parkes, GMB
Citation: Mj. Tiernan et al., Use of solid insertion probe mass spectrometry and constant rate thermal analysis in the study of materials: Determination of apparent activation energies and mechanisms of solid-state decomposition reactions, J PHYS CH B, 103(33), 1999, pp. 6944-6949
Authors:
Tiernan, MJ
Barnes, PA
Parkes, GMB
Citation: Mj. Tiernan et al., New approach to the investigation of mechanisms and apparent activation energies for the reduction of metal oxides using constant reaction rate temperature-programmed reduction, J PHYS CH B, 103(2), 1999, pp. 338-345
Authors:
Parkes, GMB
Barnes, PA
Charsley, EL
Bond, G
Citation: Gmb. Parkes et al., Microwave thermal analysis - A new approach to the study of the thermal and dielectric properties of materials, J THERM ANA, 56(2), 1999, pp. 723-731
Authors:
Barnes, PA
Tiernan, MJ
Parkes, GMB
Citation: Pa. Barnes et al., Sample controlled thermal analysis - Temperature programmed reduction of bulk and supported copper oxide, J THERM ANA, 56(2), 1999, pp. 733-737
Authors:
Dawson, EA
Parkes, GMB
Barnes, PA
Chinn, MJ
Norman, PR
Citation: Ea. Dawson et al., A study of the activation of carbon using sample controlled thermal analysis, J THERM ANA, 56(1), 1999, pp. 267-273
Authors:
Dawson, EA
Parkes, GMB
Barnes, PA
Chinn, MJ
Norman, PR
Citation: Ea. Dawson et al., Comparison of new thermal and reactant gas blending methods for the controlled oxidation of carbon, THERMOC ACT, 335(1-2), 1999, pp. 141-146
Authors:
Parkes, GMB
Barnes, PA
Charsley, EL
Bond, G
Citation: Gmb. Parkes et al., Microwave differential thermal analysis in the investigation of thermal transitions in materials, ANALYT CHEM, 71(22), 1999, pp. 5026-5032
Authors:
Parkes, GMB
Barnes, PA
Charsley, EL
Citation: Gmb. Parkes et al., New concepts in sample controlled thermal analysis: Resolution in the timeand temperature domains, ANALYT CHEM, 71(13), 1999, pp. 2482-2487
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