The utility of analytical chemistry measurements in most applications is dependent on an assessment of measurement error. This paper demonstrates the use of a two-component error model in setting limits of detection and related concepts and introduces two goodness-of-fit statistics for assessing the appropriateness of the model for the data at hand. The model is applicable to analytical methods in which high concentrations,are measured with approximately constant relative standard deviation. At low levels, the relative standard deviation cannot stay consistant, since this implies vanishingly small absolute standard deviation. The two-component model has approximately constant standard deviation near zero concentration, and approximately c...
This study presents error propagation equations for geochemical modeling of trace elements during mi...
This critical review paper will discuss the main analytical calibration models as well as the guidel...
The classification, modeling, and quantification of human errors in routine chemical analysis are de...
In this article, we propose and test a new model for measurement error in analytical chemistry. Ofte...
The use of analytical chemistry measurements in environmental monitoring is dependent on an assessme...
The use of analytical chemistry measurements in environmental monitoring is dependent on an assessme...
The present paper is a review of the main theoretical and technical aspects of human error treatment...
In chemical analyses performed by laboratories, one faces the problem of determining the concentrati...
In compositional data analysis a value below detection limit (BDL) is typically modeled as the defin...
Analytical Chemistry Division, Bhabha Atomic Research Centre, Trombay, Bombay-400 085 To achieve go...
The limit of detection is a fundamental figure of merit in chemical analysis. Many different approac...
Summary: The relationship between the concentration of the analyte and the imprecision of an analyti...
The production and inspection of food products need reliable chemical analytical methods, to detect ...
The limit of detection is one of the fundamental metrological characteristics of any chemical measur...
An innovative versatile strategy using Total Error has been proposed to decide about the method’s va...
This study presents error propagation equations for geochemical modeling of trace elements during mi...
This critical review paper will discuss the main analytical calibration models as well as the guidel...
The classification, modeling, and quantification of human errors in routine chemical analysis are de...
In this article, we propose and test a new model for measurement error in analytical chemistry. Ofte...
The use of analytical chemistry measurements in environmental monitoring is dependent on an assessme...
The use of analytical chemistry measurements in environmental monitoring is dependent on an assessme...
The present paper is a review of the main theoretical and technical aspects of human error treatment...
In chemical analyses performed by laboratories, one faces the problem of determining the concentrati...
In compositional data analysis a value below detection limit (BDL) is typically modeled as the defin...
Analytical Chemistry Division, Bhabha Atomic Research Centre, Trombay, Bombay-400 085 To achieve go...
The limit of detection is a fundamental figure of merit in chemical analysis. Many different approac...
Summary: The relationship between the concentration of the analyte and the imprecision of an analyti...
The production and inspection of food products need reliable chemical analytical methods, to detect ...
The limit of detection is one of the fundamental metrological characteristics of any chemical measur...
An innovative versatile strategy using Total Error has been proposed to decide about the method’s va...
This study presents error propagation equations for geochemical modeling of trace elements during mi...
This critical review paper will discuss the main analytical calibration models as well as the guidel...
The classification, modeling, and quantification of human errors in routine chemical analysis are de...