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Characterization and quantification of functional groups and coatings on nanoobjects an overview
(2024)
Characterization of Nanoparticles – Questions to Ask, Functional Nanoparticles (NPs) – Organic, Inorganic, and Hybrid Nanoparticles Nanomaterial Characterization Standardization – Addressing Remaining Gaps Surface FGs Particle Surface Chemistry - Why is it Important? Particle Surface Chemistry - A Key Driver for Performance, Applications, and Safety Aspects Method Development for Quantifying FGs and Ligands on Particle Surfaces FG Quantification – Method Choice & Criteria Relevant for Data Interpretation Quantifying the Amount of Total and Accessible FGs on Aminated Silica Nanoparticles (SiO2-NH2) Comparing the Total and Accessible –NH2 Content on Aminated Silica NPs of Different Size Characterization of Nanoparticles Standardization Standardized Measurements of Surface FGs on Nanoparticles EMP Project SMURFnano EMP Project SMURFnano Work Packages & Goals Certified Reference Materials from BAM
An interlaboratory comparison (ILC)was organised to characterise 87Sr/86Sr isotope ratios in geological and industrial reference materials by applying the so-called conventional method for determining 87Sr/86Sr isotope ratios. Four cements (VDZ 100a,VDZ 200a, VDZ 300a, IAG OPC-1), one limestone (IAG CGL ML-3) and one slate (IAG OU-6) reference materials were selected, covering a wide range of naturally occurring Sr isotopic signatures. Thirteen laboratories received aliquots of these six reference materials together with a detailed technical protocol. The consensus values for the six reference materials and their associated measurement uncertainties were obtained by applying a Gaussian, linear mixed effects model fitted to all the measurement results. By combining the consensus values and their uncertainties with an uncertainty contribution for potential heterogeneity, reference values ranging from 0.708134 mol mol-1 to 0.729778 mol mol-1 were obtained with relative expanded uncertainties of ≤ 0.007 %. This study represents an ILC on conventional 87Sr/86Sr isotope ratios, within which metrological principles were considered and the compatibility of measurement results obtained by MC-ICP-MS and by MC-TIMS is demonstrated. The materials characterised in this study can be used as reference materials for validation and quality control purposes and to estimate measurement uncertainties in conventional 87Sr/86Sr isotope ratio measurement.
A candidate material for the use as primary standard for nickel determination was characterized with respect to total purity. For element determination a pure material can serve as primary standard. However, real world materials are never absolutely pure, hence the total purity of such materials need to be determined experimentally. A reasonable target uncertainty for the purity statement is 10-4 relative. Usually, the purer the material, the easier it is to achieve this target uncertainty. There are two basic ways in order to be able to establish a total purity statement. One is to determine the main component of a high purity material by a direct method such as coulometry, gravimetry or titrimetry. However, these methods are not selective enough for one element and therefore require certain efforts to analyse the material with respect to impurities with interfering analytes. Moreover, to reach the defined target uncertainty is not easy or often impossible to achieve. The second approach is to determine the sum of all possible impurities (as mass fraction) and to subtract it from the ideal purity of 100 % (1 kg/kg). In principle all impurities (all elements not being the matrix element), metals and non-metals must be considered. In this work both approaches to determine the total purity of the nickel material were followed and compared.
The primary (solid) standards are usually used to prepare primary calibration solutions to which secondary and lower order calibration solutions are linked.
Changes in Black Truffle (Tuber melanosporum) Aroma during Storage under Different Conditions
(2024)
The enticing aroma of truffles is a key factor for their culinary value. Although all truffle species tend to be pricy, the most intensely aromatic species are the most sought after. Research into the aroma of truffles encompasses various disciplines including chemistry, biology, and sensory science. This study focusses on the chemical composition of the aroma of black truffles (Tuber melanosporum) and the changes occurring under different storage conditions. For this, truffle samples were stored under different treatments, at different temperatures, and measured over a total storage time of 12 days. Measurements of the truffle aroma profiles were taken with SPME/GC–MS at regular intervals. To handle the ample data collected, a systematic approach utilizing multivariate data analysis techniques was taken. This approach led to a vast amount of data which we made publicly available for future exploration. Results reveal the complexity of aroma changes, with 695 compounds identified, highlighting the need for a comprehensive understanding. Principal component analyses offer initial insights into truffle composition, while individual compounds may serve as markers for age (formic acid, 1-methylpropyl ester), freshness (2-Methyl-1-propanal; 1-(methylthio)-propane), freezing (tetrahydrofuran), salt treatment (1-chloropentane), or heat exposure (4-hydroxy-3-methyl-2-butanone). This research suggests that heat treatment or salt contact significantly affects truffle aroma, while freezing and cutting have less pronounced effects in comparison. The enrichment of compounds showing significant changes during storage was investigated with a metabolomic pathway analysis. The involvement of some of the enriched compounds on the pyruvate/glycolysis and sulfur pathways was shown.
Volatile organic compound (VOC) emissions from consumer products contribute to human inhalation exposure and may cause adverse health effects. Existing methods to determine long-term VOC emissions from e.g. building products need to be verified for their suitability to reliably detect initial VOC emissions from consumer products within the first hours and days of use, which would facilitate realistic inhalation exposure assessments. To investigate this issue, VOCs emitted from a test sample were determined in a large-scale emission test chamber and in two micro-chambers of different volumes, and the results were compared.
ALCOREF is a project within the European Metrology Programme for Innovation and Research (EMPIR. It is part of the 2016 EMPIR Research Potential Call dedicated to build up metrological and research capacity in less developed National Metrology Institutes (NMIs).
The project will develop long term expertise for the production and certification of ethanol/water reference materials in the participating NMIs. Materials to be developed will be suitable for the calibration and approval of evidential breath alcohol analysers as defined by recommendation R 126 of the International Organization of Legal Metrology (OIML). Certification includes the characterisation of the materials, assessment of homogeneity, stability and uncertainty. Target certified values and volumes will address end-users’ needs regarding regional legal limits for alcohol in traffic and the instrumentation for breath analyser calibration available in different countries. Thus, the project supports the law enforcement of national drink-driving legislation.
The consortium comprises of 11 institutions from 10 European countries. Project participants will establish reliable analytical methods for the purity assessment of ethanol, such as Karl-Fischer titration, to achieve traceability of their certified values. Chromatographic or density methods for the quantification of ethanol in water will also be established, validated and applied for homogeneity and stability assessment. An interlaboratory comparison will be conducted within the European Association of National Metrology Institutes’ (EURAMET) Technical Committee Metrology in Chemistry to test the equivalence of the new certified reference materials and the analytical methods implemented.
The poster will present the outline and first results of the ALCOREF project.
Due to their toxicity and widespread application for mining and industrial purposes, cyanides are ranking among the most important inorganic pollutants which should be tested and monitored not only in the aquatic environment, but also in soils and soil-like materials. Reference materials of soils with relevant contents of cyanide to ensure reliable test results of laboratories are rare today.
New certified reference material (CRM) BAM-U116/CGL306 “Cyanide in soil” was produced within a framework of cooperation between Central Geological Laboratory (CGL) of Mongolia and Federal Institute for Materials Research and Testing (BAM) of Germany in 2013-2017.
The CRM BAM-U116/CGL306 represents a mixture of a sandy soil collected from a contaminated former gasworks area in the Berlin region (Germany) and an unpolluted sandy soil from Nalaikh region (Mongolia). The bulk candidate material for this reference material was prepared at CGL CRM Laboratory exclusively destined to the preparation of reference materials and equipped with modern technical equipment. Homogeneity, stability and shelf life were studied in full compliance with ISO Guide 35. The CRM was evaluated as sufficiently homogeneous. Statistical evaluation of certification analysis was performed using software packages SoftCRM and ProLab Plus. Certified value of total cyanide of the CRM is 12.0 mg/kg and expanded uncertainty was assigned as 0.8 mg/kg.
The intended purpose of this material is the verification of analytical results obtained for the mass fraction of total cyanide in soils and soil-like materials applying the standardized procedure ISO 11262:2011. As any reference material, it can also be used for routine performance checks (quality control charts) or validation studies.
Certified reference material for the determination of hydrolytic resistance of borosilicate glass
(2021)
The preparation, analysis and certification of a new certified glass reference material (CRM) for the determination of hydrolytic resistance of borosilicate glass with the glass grains test is described. The CRM BAM-S053 is available in the form of glass rods (length: 185 mm, diameter: 9 mm, weight: 27·5 g). Certified properties are the acid consumption determined according to the procedures described in ISO 720, USP<660>, Ph.Eur. 3.2.1, data obtained following the procedure of ISO 719 was scattering too widely. The certified values are based on the results of 15 laboratories which participated in the certification interlaboratory comparison. The CRM is intended for the quality control when applying ISO 720, USP<660>, Ph.Eur. 3.2.1 and with limitations ISO 719.