De Bièvre / Bièvre / Günzler Traceability in Chemical Measurement

Measurement principles for traceability in chemical analysis.- Protocols for traceability in chemical analysis.- Protocols for traceability in chemical analysis.- Metrological traceability in laboratory medicine.- Traceability and analytical chemistry.- Do interlaboratory comparisons provide traceability?.- From total allowable error via metrological traceability to uncertainty of measurement of the unbiased result.- Practical considerations on the traceability to conventional scales.- Traceability of (values carried by) reference materials.- What can we learn from traceability in physical measurements?.- How to achieve international comparability for chemical measurements.- The key elements of traceability in chemical measurement: agreed or still under debate?.- The practical realization of the traceability of chemical measurements standards.- Link to the SI via primary direct methods.- The role of reference materials.- The measurement assurance concept in calibration and traceability at NBS/NIST.- Lifetime of the traceability chain in chemical measurement.- Proficiency evaluation as a traceability link in chemical metrology.- Achieving traceability in chemical measurement — a metrological approach to proficiency testing.- Traceability issues in measurement.- Comparative study of the presentations at the CCQM workshop on traceability.- Traceability in laboratory medicine.- Testing for foods derived from modern biotechnology: opportunities and limitations for metrology.- A national traceability system for chemical measurements.- Establishing measurement traceability in clinical chemistry.- Clinical Laboratory Reference Networks.- One way of disseminating reference values with demonstrated traceability and demonstrated uncertainty to field laboratories: IMEP.-Implementation of traceability — needs and perspective of the in-vitro-diagnosticum industry.- Improvements in efficiency of production and traceability for certification of reference materials.- Traceable measurements in clinical laboratories.- A traceability protocol to the SI by gravimetric analysis.- Reference samples for analysis of gas impurities in aluminium and titanium alloys: Features of production, certification and usage to ensure traceability of results.- The use of certified reference materials in the Romanian traceability scheme.- Traceable measurements of pH.- The development of gas standards and calibration techniques for measurements of vehicle, aircraft and industrial emissions, natural gas, occupational exposure and air quality.- Problems of traceability of total protein and catecholamine determinations in human urine.- Traceability in routine chemical measurements: an example of application in the determination of CO2 at atmospheric concentration.- Traceability of measurement results of the effective acquisition time in gamma-ray spectrometry implemented by the pulser method.- Practical ways in establishing traceability in chemical and other measurements in Mexico.- Benefits of the implementation of a metrological structure for water analyses.- Validation steps for traceability of linear calibrated chemical measurements.- Traceability, is it what we really want in our chemical measurements?.- Traceability in measurement — time for an update?.- On the existence of primary methods of measurement.- Traceability and uncertainty — A comparison of their application in chemical and physical measurement.- Traceability and its role in interlaboratory comparisons (proficiency testing programmes), modeled on trace element determination in biologicalmaterials.- Traceable property values of in-house reference materials.- Primary reference materials and traceability chain for gas composition.- Traceability to units.- Traceability without uncertainty: current situation in the pharmaceutical industry.- The role of reference materials in analytical chemistry.- Meeting ISO/IEC 17025 Traceability Requirements.- UK delivery of traceable chemical measurements in the 21st century: building on the foundation of the VAM programme.- Disseminating traceability in chemical measurement: Principles of a new EURACHEM/CITAC guide.- CITAC Position Paper: Traceability in chemical measurement.- Glossary of analytical terms.