Your search keyword '"Walczyk, Thomas"' showing total 6 results

1. Chemical data evaluation: general considerations and approaches for IUPAC projects and the chemistry community (IUPAC Technical Report).

Author

Shaw, David G., Bruno, Ian, Chalk, Stuart, Hefter, Glenn, Hibbert, David Brynn, Hutchinson, Robin A., Magalhães, M. Clara F., Magee, Joseph, McEwen, Leah R., Rumble, John, Russell, Gregory T., Waghorne, Earle, Walczyk, Thomas, and Wallington, Timothy J.

Subjects

SCIENTIFIC community, TECHNICAL reports, GOVERNMENT agencies, BEST practices, VALUATION of real property

Abstract

The International Union of Pure and Applied Chemistry has a long tradition of supporting the compilation of chemical data and their evaluation through direct projects, nomenclature and terminology work, and partnerships with international scientific bodies, government agencies, and other organizations. The IUPAC Interdivisional Subcommittee on Critical Evaluation of Data has been established to provide guidance on issues related to the evaluation of chemical data. In this first report, we define the general principles of the evaluation of scientific data and describe best practices and approaches to data evaluation in chemistry. [ABSTRACT FROM AUTHOR]

Published

2023

2. Standard atomic weights of the elements 2021 (IUPAC Technical Report).

Author

Prohaska, Thomas, Irrgeher, Johanna, Benefield, Jacqueline, Böhlke, John K., Chesson, Lesley A., Coplen, Tyler B., Ding, Tiping, Dunn, Philip J. H., Gröning, Manfred, Holden, Norman E., Meijer, Harro A. J., Moossen, Heiko, Possolo, Antonio, Takahashi, Yoshio, Vogl, Jochen, Walczyk, Thomas, Wang, Jun, Wieser, Michael E., Yoneda, Shigekazu, and Zhu, Xiang-Kun

Subjects

ATOMIC weights, TECHNICAL reports, ATOMIC mass, SUBSTANCE P, TERBIUM, PRASEODYMIUM, YTTERBIUM

Abstract

Following the reviews of atomic-weight determinations and other cognate data in 2015, 2017, 2019 and 2021, the IUPAC (International Union of Pure and Applied Chemistry) Commission on Isotopic Abundances and Atomic Weights (CIAAW) reports changes of standard atomic weights. The symbol Ar°(E) was selected for standard atomic weight of an element to distinguish it from the atomic weight of an element E in a specific substance P, designated Ar(E, P). The CIAAW has changed the values of the standard atomic weights of five elements based on recent determinations of terrestrial isotopic abundances: Ar (argon): from 39.948 ± 0.001 to [39.792, 39.963] Hf (hafnium): from 178.49 ± 0.02 to 178.486 ± 0.006 Ir (iridium): from 192.217 ± 0.003 to 192.217 ± 0.002 Pb (lead): from 207.2 ± 0.1 to [206.14, 207.94] Yb (ytterbium): from 173.054 ± 0.005 to 173.045 ± 0.010 The standard atomic weight of argon and lead have changed to an interval to reflect that the natural variation in isotopic composition exceeds the measurement uncertainty of Ar(Ar) and Ar(Pb) in a specific substance. The standard atomic weights and/or the uncertainties of fourteen elements have been changed based on the Atomic Mass Evaluations 2016 and 2020 accomplished under the auspices of the International Union of Pure and Applied Physics (IUPAP). Ar° of Ho, Tb, Tm and Y were changed in 2017 and again updated in 2021: Al (aluminium), 2017: from 26.981 5385 ± 0.000 0007 to 26.981 5384 ± 0.000 0003 Au (gold), 2017: from 196.966 569 ± 0.000 005 to 196.966 570 ± 0.000 004 Co (cobalt), 2017: from 58.933 194 ± 0.000 004 to 58.933 194 ± 0.000 003 F (fluorine), 2021: from 18.998 403 163 ± 0.000 000 006 to 18.998 403 162 ± 0.000 000 005 (Ho (holmium), 2017: from 164.930 33 ± 0.000 02 to 164.930 328 ± 0.000 007) Ho (holmium), 2021: from 164.930 328 ± 0.000 007 to 164.930 329 ± 0.000 005 Mn (manganese), 2017: from 54.938 044 ± 0.000 003 to 54.938 043 ± 0.000 002 Nb (niobium), 2017: from 92.906 37 ± 0.000 02 to 92.906 37 ± 0.000 01 Pa (protactinium), 2017: from 231.035 88 ± 0.000 02 to 231.035 88 ± 0.000 01 Pr (praseodymium), 2017: from 140.907 66 ± 0.000 02 to 140.907 66 ± 0.000 01 Rh (rhodium), 2017: from 102.905 50 ± 0.000 02 to 102.905 49 ± 0.000 02 Sc (scandium), 2021: from 44.955 908 ± 0.000 005 to 44.955 907 ± 0.000 004 (Tb (terbium), 2017: from 158.925 35 ± 0.000 02 to 158.925 354 ± 0.000 008) Tb (terbium), 2021: from 158.925 354 ± 0.000 008 to 158.925 354 ± 0.000 007 (Tm (thulium), 2017: from 168.934 22 ± 0.000 02 to 168.934 218 ± 0.000 006) Tm (thulium), 2021: from 168.934 218 ± 0.000 006 to 168.934 219 ± 0.000 005 (Y (yttrium), 2017: from 88.905 84 ± 0.000 02 to 88.905 84 ± 0.000 01) Y (yttrium), 2021: from 88.905 84 ± 0.000 01 to 88.905 838 ± 0.000 002 [ABSTRACT FROM AUTHOR]

Published

2022

3. IUPAC Periodic Table of the Elements and Isotopes (IPTEI) for the Education Community (IUPAC Technical Report).

Author

Holden, Norman E., Coplen, Tyler B., Böhlke, John K., Tarbox, Lauren V., Benefield, Jacqueline, de Laeter, John R., Mahaffy, Peter G., O'Connor, Glenda, Roth, Etienne, Tepper, Dorothy H., Walczyk, Thomas, Wieser, Michael E., and Yoneda, Shigekazu

Subjects

PERIODIC table of the elements, RADIOISOTOPES, ISOTOPES, ATOMIC weights, CHEMICAL elements

Abstract

The IUPAC (International Union of Pure and Applied Chemistry) Periodic Table of the Elements and Isotopes (IPTEI) was created to familiarize students, teachers, and non-professionals with the existence and importance of isotopes of the chemical elements. The IPTEI is modeled on the familiar Periodic Table of the Chemical Elements. The IPTEI is intended to hang on the walls of chemistry laboratories and classrooms. Each cell of the IPTEI provides the chemical name, symbol, atomic number, and standard atomic weight of an element. Color-coded pie charts in each element cell display the stable isotopes and the relatively long-lived radioactive isotopes having characteristic terrestrial isotopic compositions that determine the standard atomic weight of each element. The background color scheme of cells categorizes the 118 elements into four groups: (1) white indicates the element has no standard atomic weight, (2) blue indicates the element has only one isotope that is used to determine its standard atomic weight, which is given as a single value with an uncertainty, (3) yellow indicates the element has two or more isotopes that are used to determine its standard atomic weight, which is given as a single value with an uncertainty, and (4) pink indicates the element has a well-documented variation in its atomic weight, and the standard atomic weight is expressed as an interval. An element-by-element review accompanies the IPTEI and includes a chart of all known stable and radioactive isotopes for each element. Practical applications of isotopic measurements and technologies are included for the following fields: forensic science, geochronology, Earth-system sciences, environmental science, and human health sciences, including medical diagnosis and treatment. [ABSTRACT FROM AUTHOR]

Published

2018

4. Atomic weights of the elements 2013 (IUPAC Technical Report).

Author

Meija, Juris, Coplen, Tyler B., Berglund, Michael, Brand, Willi A., De Bièvre, Paul, Gröning, Manfred, Holden, Norman E., Irrgeher, Johanna, Loss, Robert D., Walczyk, Thomas, and Prohaska, Thomas

Subjects

ATOMIC weights, ATOMIC mass, URANIUM isotopes, SELENIUM

Abstract

The biennial review of atomic-weight determinations and other cognate data has resulted in changes for the standard atomic weights of 19 elements. The standard atomic weights of four elements have been revised based on recent determinations of isotopic abundances in natural terrestrial materials: The Commission on Isotopic Abundances and Atomic Weights (ciaaw.org) also revised the standard atomic weights of fifteen elements based on the 2012 Atomic Mass Evaluation: The Commission also recommends the standard value for the natural terrestrial uranium isotope ratio, N(238U)/ N(235U)=137.8(1). [ABSTRACT FROM AUTHOR]

Published

2016

5. Isotopic compositions of the elements 2013 (IUPAC Technical Report).

Author

Meija, Juris, Coplen, Tyler B., Berglund, Michael, Brand, Willi A., De Bièvre, Paul, Gröning, Manfred, Holden, Norman E., Irrgeher, Johanna, Loss, Robert D., Walczyk, Thomas, and Prohaska, Thomas

Subjects

ISOTOPIC analysis, ATOMIC weights, CHEMICAL research, CHEMISTRY periodicals

Abstract

The Commission on Isotopic Abundances and Atomic Weights (ciaaw.org) of the International Union of Pure and Applied Chemistry (iupac.org) has revised the Table of Isotopic Compositions of the Elements (TICE). The update involved a critical evaluation of the recent published literature. The new TICE 2013 includes evaluated data from the 'best measurement' of the isotopic abundances in a single sample, along with a set of representative isotopic abundances and uncertainties that accommodate known variations in normal terrestrial materials. [ABSTRACT FROM AUTHOR]

Published

2016

6. Atomic weights of the elements 2011 (IUPAC Technical Report).

Author

Wieser, Michael E., Holden, Norman, Coplen, Tyler B., Böhlke, John K., Berglund, Michael, Brand, Willi A., De Bièvre, Paul, Gröning, Manfred, Loss, Robert D., Meija, Juris, Hirata, Takafumi, Prohaska, Thomas, Schoenberg, Ronny, O'Connor, Glenda, Walczyk, Thomas, Yoneda, Shige, and Xiang-Kun Zhu

Subjects

MOLE (Chemistry), TECHNICAL reports, BROMINE, ATOMIC weights, GERMANIUM, MAGNESIUM, INDIUM

Abstract

The biennial review of atomic-weight determinations and other cognate data has resulted in changes for the standard atomic weights of five elements. The atomic weight of bromine has changed from 79.904(1) to the interval [79.901, 79.907], germanium from 72.63(1) to 72.630(8), indium from 114.818(3) to 114.818(1), magnesium from 24.3050(6) to the interval [24.304, 24.307], and mercury from 200.59(2) to 200.592(3). For bromine and magnesium, assignment of intervals for the new standard atomic weights reflects the common occurrence of variations in the atomic weights of those elements in normal terrestrial materials. [ABSTRACT FROM AUTHOR]

Published

2013