Time-Sharing Minicomputer Data Acquisition-Processing System

Overton, Mack W; Alber, Larry L; Smith, Donald E.

doi:10.1021/ac60353a755

Cited by 3 publications

(2 citation statements)

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“…As on-line computerization is a necessity in the development of many kinetic instruments, as is evident from the discussion above, several selected papers on computer systems, interfacing, data handling, etc., are given here as they could be useful to anyone considering kinetic-based analysis. Various philosophies, approaches, and configurations of laboratory-wide on-line computer systems have been discussed by Overton et al (176), Anfált and Jagner (177), DeVoe and coworkers (178), Laessig and Schwartz (179) and Reilley and co-workers (180). Micro computers and their potential use in laboratory systems have also been discussed (181-183).…”

Section: Instrumental Computer and Miscellaneous Kinetic Methodsmentioning

confidence: 99%

Kinetic aspects of analytical chemistry

Greinke¹,

Mark²

1976

Anal. Chem.

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Section: Instrumental Computer and Miscellaneous Kinetic Methodsmentioning

confidence: 99%

Kinetic aspects of analytical chemistry

Greinke¹,

Mark²

1976

Anal. Chem.

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“…In a series of papers, we and others, [19][20][21][22][23] have recently expanded the use of Fourier or Hibbert or other forms of transformed ac voltammetry relative to that introduced by Smith et al in their pioneering studies [24][25][26][27][28] usually related to polarography (voltammetry at a dropping electrode). To date the Butler-Volmer description of electron transfer has been exclusively employed, even though it may be inadequate in some situations.…”

Section: Introductionmentioning

confidence: 99%

Access to enhanced differences in Marcus–Hush and Butler–Volmer electron transfer theories by systematic analysis of higher order AC harmonics

Stevenson

Baker

Kennedy

et al. 2013

Phys. Chem. Chem. Phys.

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The potential-dependences of the rate constants associated with heterogeneous electron transfer predicted by the empirically based Butler-Volmer and fundamentally based Marcus-Hush formalisms are well documented for dc cyclic voltammetry. However, differences are often subtle, so, presumably on the basis of simplicity, the Butler-Volmer method is generally employed in theoretical-experimental comparisons. In this study, the ability of Large Amplitude Fourier Transform AC Cyclic Voltammetry to distinguish the difference in behaviour predicted by the two formalisms has been investigated. The focus of this investigation is on the difference in the profiles of the first to sixth harmonics, which are readily accessible when a large amplitude of the applied ac potential is employed. In particular, it is demonstrated that systematic analysis of the higher order harmonic responses in suitable kinetic regimes provides predicted deviations of Marcus-Hush from Butler-Volmer behaviour to be established from a single experiment under conditions where the background charging current is minimal.

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The Quest for Sensitivity, Specificity, and Speed in Chemical Analysis

Boltz

1976

Analytical Letters

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Time-Sharing Minicomputer Data Acquisition-Processing System

Abstract: Four years ago, an agency decision was made to investigate the applicability of the on-line minicomputer in Food and Drug Administration district laboratories. Although several -

Cited by 3 publications

References 13 publications

Kinetic aspects of analytical chemistry

Kinetic aspects of analytical chemistry

Access to enhanced differences in Marcus–Hush and Butler–Volmer electron transfer theories by systematic analysis of higher order AC harmonics

The Quest for Sensitivity, Specificity, and Speed in Chemical Analysis

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