Quality and Reliability in Analytical Chemistry Analytical Chemistry Series
Auteur : Baiulescu George E.
Quality and reliability are central to success in every discipline, but perhaps nowhere are they more important or more interconnected than in the practice of analytical chemistry. Here, although reliable analytical information implies quality, not all "quality" information proves reliable.
Quality and Reliability in Analytical Chemistry examines the various factors affecting these parameters in each step of the analytical process:
The Sample: Investigate the reliability of the sample, including its history and homogeneity.
The Method: See the connection between reliability and the selection of analytical methods for environmental, food, and clinical analyses.
The Instruments: Examine the relationship between reliability and your instrumentation.
Data Processing: Consider the importance of chemometrics in the reliability of data processing.
Automation: Explore automation of the analytic process through discussion of its parameters - rapidity, reproducibility, flexibility, and reliability.
Standards and Standardization: Understand how quality and reliability cannot be assured without using standards for measurement and how only reliable methods can be standardized.
The goal of the analytic process is to obtain high quality information with high reliability. Quality and Reliability in Analytical Chemistry helps you meet that goal and thereby satisfy your quality assurance and quality control requirements.
Date de parution : 07-2017
15.6x23.2 cm
Date de parution : 09-2000
Ouvrage de 170 p.
15.6x23.4 cm
Thèmes de Quality and Reliability in Analytical Chemistry :
Mots-clés :
ISME; FIA; information; Analytical Information; anodic; Reliable Analytical Information; stripping; Sequential Injection Analysis; voltammetry; Amperometric Biosensors; ion-selective; Microwave Digestion; membrane; Supercritical; electrodes; Capillary Zone Electrophoresis; flow; CZE; injection; Sample Pickup; analysis; Supercritical Fluids Extraction; Electrochemical Sensors; Sampling Process; Clinical Analysis; SPME; Spectrometric Methods; Ft IR Spectrometer; Electrometrical Methods; Analytical Instrument; Food Analysis; Arsenazo III; SFC; Data Set; ICP MS Technique