Analytische Chemie
Filtern
Dokumenttyp
- Forschungsbericht (17)
- Vortrag (10)
- Zeitschriftenartikel (6)
- Posterpräsentation (4)
- Beitrag zu einem Tagungsband (2)
Sprache
- Englisch (37)
- Mehrsprachig (2)
Schlagworte
- Certification (39) (entfernen)
Organisationseinheit der BAM
Paper des Monats
- ja (2)
Eingeladener Vortrag
- nein (10)
In a mutual framework agreement, the two German national institutes BAM (Federal Institute of Materials Research and Testing) and PTB (Physikalisch-Technische Bundesanstalt) agreed upon the development, provision, and dissemination of national measurement standards for chemical analysis via primary reference measuring systems.
Traceability to national standards and international comparability is of key importance for the acceptance of measurement results in metrology.
IDMS Training
(2016)
Based on its proven records especially in reference material certification, isotope dilution mass spectrometry (IDMS) is considered as one of the most powerful and most accurate methods for determining amounts of substance. Contrary to other calibration approaches, IDMS does not directly suffer from long-time changes or drifts in instrument sensitivity. Moreover, provided isotopic exchange between the sample and spike is ensured, losses of analyte do not affect the analytical result. Both advantages are based on the fact that IDMS only requires isotope ratio measurements and isotope ratios are largely unaffected by instrumental drift, setup or by matrix, unless an isobaric interference is present.
The Consultative Committee for Amount of Substance (CCQM), the world's highest institution for metrology in chemistry, considers IDMS as the most important “Primary Method of Measurement” for amount determination. The total combined uncertainty, according to ISO and EURACHEM guidelines, can easily be calculated via the IDMS equations. Applying it correctly, IDMS has the potential to be a primary method of measurement yielding SI traceable values in the most direct way with combined uncertainties significantly smaller than obtainable by other methods.
In general it can be stated that IDMS is the most important reference method for elemental and elemental species analysis, offering highest accuracy and precision or smallest measurement uncertainties, when properly applied. Thus IDMS represents by far the best suited reference method for RM characterisation. Due to its universal applicability IDMS offers sufficient potential to follow future needs in analytical chemistry as well as in the RM sector.
This presentation will demonstrate the basic principle of IDMS and will show its Pros and Cons as well as its pitfalls. Possible sources of errors and bias are mentioned and correction models will be discussed. Notice will be given to metrological aspects such as traceability and uncertainty. Differences in the application of thermal ionization mass spectrometry and inductively coupled plasma mass spectrometry are discussed as well as differences between different types of mass spectrometers. This will be illustrated by practical examples from various fields.
Digital transformation and especially the dramatic rise of products and services connected to the Internet of Things raise the questions on how to deal with the increasing risks related to Privacy and Cybersecurity. Presumably, these risks seem to be insufficiently reflected in the European Union’s current regulative system – by being neither part of the traditional definition of a safe product nor part of product-specific vertical or horizontal directives. Certification based on standards as underlying requirements has been identified by policymakers as an instrument to address this issue. The latest European draft regulation aims at increasing security and trust in ICT products and services, and reducing current European market fragmentation with a new Cybersecurity Certification Framework. Based on the results of a qualitative analysis of stakeholder statements on the current proposal on the Cybersecurity Act, this paper discusses elements of the proposed Cybersecurity Certification Framework. As a theoretical background, this paper provides definitions of the terms Safety, IT-security, and Cybersecurity, presents selected Cybersecurity-related standards and provides an outlook on future challenges to Conformity Assessment in the digital transformation.
Digital transformation and especially the dramatic rise of products and services connected to the Internet of Things raise the questions on how to deal with the increasing risks related to Privacy and Cybersecurity. Presumably, these risks seem to be insufficiently reflected in the European Union’s current regulative system – by being neither part of the traditional definition of a safe product nor part of product-specific vertical or horizontal directives. Certification based on standards as underlying requirements has been identified by policymakers as an instrument to address this issue. The latest European draft regulation aims at increasing security and trust in ICT products and services, and reducing current European market fragmentation with a new Cybersecurity Certification Framework. Based on the results of a qualitative analysis of stakeholder statements on the current proposal on the Cybersecurity Act, this paper discusses elements of the proposed Cybersecurity Certification Framework. As a theoretical background, this paper provides definitions of the terms Safety, IT-security, and Cybersecurity, presents selected Cybersecurity-related standards and provides an outlook on future challenges to Conformity Assessment in the digital transformation.
Certification of the mass fractions of trace elements in a medium purity graphite reference material
(2018)
The increasing application of graphite materials in various fields of technology and science enhances the demand for strictly controlled properties which are often directly correlated to the contents of trace element impurities. Therefore, the availability of powerful, rapid and reliable analytical methods for the determination of trace impurities is essential for process and quality control. Certified reference materials, indispensable for the development and validation of appropriate trace analytical methods for the characterization of special purity graphite materials are still lacking. Therefore, BAM in co-operation with the working group “Special Materials” of the committee of chemists of GDMB (Gesellschaft der Metallurgen und Bergleute e.V.) certified an industrially sourced graphite material with genuine elemental impurities.
The candidate material was a commercial product (NBG 18) taken from the customary production line of the producer SGL CARBON, Chedde (France). The homogeneity of the powdered material was assessed by means of ETV-ICP OES and DC Arc-OES. Certification of the candidate reference material was based on an inter-laboratory comparison involving 17 expert laboratories from Germany, France, Slovenia, USA, South Africa. A variety of different mineralization, digestion, leaching, fusion and combustion techniques prior to ICP OES and photometry, methods without sample preparation (INAA, k0-INAA) as well as typical solid sampling methods (ETV-ICP OES, ETV-ICP-MS, SS-ET AAS, DC Arc-OES, MF-DC Arc-OES) were used to characterise the material. Certified mass fractions and their expanded uncertainties (k = 2) were assigned for 27 elements (Al, B, Ba, Be, Ca, Co, Cr, Cu, Fe, K, Li, Mg, Mn, Mo, Na, Ni, P, Pb, S, Si, Sr, Ti, V, W, Y, Zn, Zr), ranging from (0.00050 ± 0.00027) mg/kg for Be to (41 ± 6) mg/kg for Si. Additionally, informative values are given for the: trace element contents of Ag, As, Au, Bi, Cd, Cs, Dy, Eu, Ga, Gd, Hg, In, La, Nb, Rb, Re, Rh, Sb, Sc, Se, Sm, Sn, Ta, Tb, Te, Th, U; method specific values obtained by ETV-ICP OES (BETV and SiETV) and the ash content of the material.
The certified material “BAM-S009 Medium Purity Graphite Powder” is available for purchase from BAM.
Certification of the mass fractions of trace elements in a medium purity graphite reference material
(2018)
The increasing application of graphite materials in various fields of technology and science enhances the demand for strictly controlled properties which are often directly correlated to the contents of trace element impurities. Therefore, the availability of powerful, rapid and reliable analytical methods for the determination of trace impurities is essential for process and quality control. Certified reference materials, indispensable for the development and validation of appropriate trace analytical methods for the characterization of special purity graphite materials are still lacking. Therefore, BAM in co-operation with the working group “Special Materials” of the committee of chemists of GDMB (Gesellschaft der Metallurgen und Bergleute e.V.) certified an industrially sourced graphite material with genuine elemental impurities.
The candidate material was a commercial product (NBG 18) taken from the customary production line of the producer SGL CARBON, Chedde (France). The homogeneity of the powdered material was assessed by means of ETV-ICP OES and DC Arc-OES. Certification of the candidate reference material was based on an inter-laboratory comparison involving 17 expert laboratories from Germany, France, Slovenia, USA, South Africa. A variety of different mineralization, digestion, leaching, fusion and combustion techniques prior to ICP OES and photometry, methods without sample preparation (INAA, k0-INAA) as well as typical solid sampling methods (ETV-ICP OES, ETV-ICP-MS, SS-ET AAS, DC Arc-OES, MF-DC Arc-OES) were used to characterise the material. Certified mass fractions and their expanded uncertainties (k = 2) were assigned for 27 elements (Al, B, Ba, Be, Ca, Co, Cr, Cu, Fe, K, Li, Mg, Mn, Mo, Na, Ni, P, Pb, S, Si, Sr, Ti, V, W, Y, Zn, Zr), ranging from (0.00050 ± 0.00027) mg/kg for Be to (41 ± 6) mg/kg for Si. Informative values are given for further parameters: trace element contents of Ag, As, Au, Bi, Cd, Cs, Dy, Eu, Ga, Gd, Hg, In, La, Nb, Rb, Re, Rh, Sb, Sc, Se, Sm, Sn, Ta, Tb, Te, Th, U; method specific values obtained by ETV-ICP OES (BETV and SiETV) and ash content.
The new certified material is available as BAM Reference Material BAM-S009 Medium Purity Graphite Powder.
The presentation summarizes the economic research activities at Department S concerning Quality Infrastructure. It introduces the new tool "QI-FoKuS" - an annual company survey in Germany, seeking to provide data on conformity assessment and accreditation in Germany. The first company survey deals with the use and certification of management systems with a special focus on information security and the criteria for the selection of certification bodies.
QI-FoKuS stands for „Quality Infrastructure – Research for Conformity Assessment and Safety“. Supported by the BMWi, a new recurring survey of companies was launched under this name in end-September 2019 in a joint project between the TU Berlin and the Federal Institute for Materials Research and Testing (BAM). The first company survey deals with the use and certification of management systems with a special focus on information security and the criteria for the selection of certification bodies.
Despite the growing dependence of companies on information technology and the increasingly negative impact of security incidents worldwide, there is little research on the management of information security at the company level. This paper seeks to expand knowledge on the implementation of an information security management system based on the widely used international standard ISO/IEC 27001. We present motives, experienced impacts, and obstacles related to ISO/IEC 27001 implementation using data from a survey of 125 ISO/IEC 27001 certified companies in Germany. Since adoption rates vary between ICT and non-ICT sector companies, we highlight sector-related variations. We classify the adoption of this standard as a preventive organizational innovation and apply Structural Equation Modeling to unearth explanations for the comparatively low adoption of this management system standard among companies outside the ICT sector. We, therefore, derive recommendations for policymakers, standardization, and certification bodies to foster its diffusion.
The COVID-19 pandemic has posed new and manifold challenges to organizations and their operations worldwide. Conformity assessment bodies (CABs), such as testing or medical laboratories, certification, and inspection bodies, which are a key part of the Quality Infrastructure and constitute central pillars for trade, health and the innovation system, are also affected by the associated disruptions. However, their services matter more than ever.
We present the results of an international survey of 986 CABs of all types in Germany, the UK, Italy, and New Zealand to highlight and compare economic impacts, the resilience of this industry as well as issues of digitalization.