Periodic Table |
 |
 |
 |
 |
 |
 |
 |
The INTERNET Database of Periodic Tables
There are thousands of periodic tables in web space, but this is the only comprehensive database of periodic tables & periodic system formulations. If you know of an interesting periodic table that is missing, please contact the database curator: Mark R. Leach Ph.D.
Use the drop menus below to search & select from the more than 1300 Period Tables in the database:
- SEARCH:
- By Decade
- By Type
-
Pre-Selected
Best Four Periodic Tables for Data All Periodic Tables by Name All Periodic Tables by Date All Periodic Tables by Reverse Date All Periodic Tables, as Added to the Database All Periodic Tables, reverse as Added Elements by Name Elements by Date Discovered Search for: Mendeleev/Mendeléeff Search for: Janet/Left-Step Search for: Eric Scerri Search for: Mark Leach Search for: René Vernon Search for: Electronegativity
-
By Year
2020 2019 2018 2017 2016 2015 2014 2013 2012 2011 2010 2009 2008 2007 2006 2005 2004 2003 2002 2001 2000 1999 1998 1997 1996 1995 1994 1993 1992 1991 1990 1989 1988 1987 1986 1985 1984 1983 1982 1981 1980 1979 1978 1977 1976 1975 1974 1973 1972 1971 1970 1969 1968 1967 1966 1965 1964 1963 1962 1961 1960 1959 1958 1957 1956 1955 1954 1953 1952 1951 1950 1949 1948 1947 1946 1945 1944 1943 1942 1941 1940 1939 1938 1937 1936 1935 1934 1933 1932 1931 1930 1929 1928 1927 1926 1925 1924 1923 1922 1921 1920 1919 1918 1917 1916 1915 1914 1913 1912 1911 1910 1909 1908 1907 1906 1905 1904 1903 1902 1901 1900 1899 1898 1897 1896 1895 1894 1893 1892 1891 1890 1889 1888 1887 1886 1885 1884 1883 1882 1881 1880 1879 1878 1877 1876 1875 1874 1873 1872 1871 1870 1869 1868 1867 1866 1865 1864 1863 1862 1861 1860 1859 1858 1857 1856 1855 1854 1853 1852 1851 1850 1844 1843 1842 1838 1836 1831 1830 1829 1825 1824 1817 1814 1813 1811 1808 1807 1804 1803 1802 1801 1800 1798 1794 1791 1789 1787 1783 1782 1781 1778 1775 1774 1772 1771 1766 1753 1751 1748 1735 1718 1700 1690 1687 1682 1671 1669 1624 1617 1520 1000 -300 -450 -800 -1000 -2000 -3500 -3750 -5000 -6000 -7000 -9000
The 10 Periodic Tables most recently added to the database:
| Year: 2023 | PT id = 1298 |
Kudan's 3D Model of The Periodic Table
Pavel V. Kudan's 3D model of the Periodic Table from Research Gate and via direct download.
Parvel writes:
"The shape of this 3D model allows to show most important thing – H may be aligned over F-Ts and He may be aligned over Ne-Og without classification of H to group F-Ts or He to group Ne-Og. To see that it is needed only that cylinder to be tough (hard) and flat parts to be flexible with ability to change angle. Than is important because according Mendeleev’s principle, maximum valence is main for grouping elements and it is controversial to have element with maximum valence 2 between elements with maximum valence 8.
"Coloring He as gray in the 3D model just reflex the fact that it goes just before the energy gap, as well as coloring Ne-Og in gray show that they too go just before the energy gaps, which makes He and Ne-Og noble. The main is not coloring, but the ability to align and demonstrate.
"You may also remember that the issue of opening the new IUPAC Group 2 project to discuss He group as a continuation of the IUPAC Group 3 project has already been raised in e-mail correspondence with IUPAC some time ago in protection of our reconstruction of Landau’s geometry of the Periodic table.
"I agree with you that double periodicity is important, but also rearrangements of electronic configurations caused by properties of d-orbitals also must be taken in account. For example, Cu has valences 1 or 2, Zn has valence 2 due to special properties of d-orbitals. The 3D model of the Periodic table separates the ability of d-orbitals to steel electrons from s-orbitals and f-orbitals causing of such effects.
"Also when you will have a copy of the 3D model you will see that it unifies both geometry of the Mendeleev’s Periodic table and geometry of the Janet’s Periodic table. Following anticlockwise you may see Mendeleev’s order while following clockwise you may see Janet’s order. It is similar to having the 3D moles of globe as visual aid for better vision of Mendeleev’s Periodic table and Janet’s Periodic table as flat detailed maps."
| Year: 2019 | PT id = 1297 |
Ossmi LH & Chasib's Periodic Table
By Dr Laith Al- ossmi, Thi-qar University, Iraq: Al Ossmi LH & Chasib K F, A New Method of Elements Arrangement to Reattach the F–Block Elements of Lanthanides and Actinides in the IUPAC's Periodic Table of Elements, Med & Analy Chem Int J, 3, 4,2019, pp 1–18. DOI 10.23880/macij-16000148
The new 3-dimantional layout of the periodic table graphically shows the main body parts of the table and also these vertical and horizontal coordinators of Periods, Groups, and Nadas.
| Year: 1911 | PT id = 1296 |
Emerson's Periodic Table of Atomic Weights
Emerson BK, Helix chemica: A study of the periodic relations of the elements and their graphic representation, American Chemical Journal, vol. 45, pp. 160–210 (1911). The formulation below appears on page 173; a scanned pdf version of the paper can be viewed here.
René Vernon writes:
Emerson includes two elements before hydrogen: "E" (either the luminiferous ether or the electron) and "Coronium". There are also two elements between hydrogen and helium: "Nebulium" and "Protofluorine".
This is the first time I have seen a PT showing four extra elements and where they are supposed to fit.
After La, Emerson incorporates 13 lanthanides (Ce to Lu) as transition elements into his 7th period.
Emerson missed dysprosium, between Tb and Ho.
"A, B and C" at the bottom right are supposed to be 'halogen emanations'.
Mark Leach adds that Emerson's very odd Periodic Table of Atomic Weights does not actually show any atomic weights.
| Year: 2020 | PT id = 1295 |
University of UNAM Periodic Table
Mexico City, University of UNAM Chemistry Department
Thanks to Marcus for the tip!
| Year: 2024 | PT id = 1294 |
Periodic Table Regions
Permanent link to the comic: https://xkcd.com/2913/
Image URL (for hotlinking/embedding): https://imgs.xkcd.com/comics/periodic_table_regions.png
Thanks to Marcus for the tip!
| Year: 1919 | PT id = 1293 |
Snyder's Fundamental Periodic Table of The Elements
Snyder MB 1919, The Fundamental Periodic Table of the Chemical Elements, filed in Congressional Library, Washington.
René Vernon writes:
"Notable for:
- Its attempted integration of the Ln and An into the short form of the periodic table
- Placement of H over He, Li and F
- Elements 108 = Pleon; 126 = Akron; 143 = Ultine"
| Year: 1995 | PT id = 1292 |
Considine's Polar Periodic Table
From: Considine DM (ed.) 1995, Van Nostrand’s Encyclopedia of Science, 8th ed. New York, p. 2376
René Vernon writes:
"A nice design but of quite limited practical utility for quick reference or detailed chemical analysis."
| Year: 2023 | PT id = 1291 |
Bala's Shape of the Periodic Table
Gavin J. Bala has produced a nice and detailed look at The Shape of The Periodic Table (.PDF) that reviews the science:
| Year: 1936 | PT id = 1290 |
Van Wert Periodic table (after Guertler-Leitgebel)
Van Wert LR, An Introduction to Physical Metallurgy, McGraw-Hill, New York, 1936, pp 17. Van Wert says the periodic table is after "Guertler-Leitgebel", which is presumably Guertler WM & Leitgebel M 1929, Vom Erz zum metallischen Werkstoff: Leitlinien und Rüstzeug der metallurgischen und metallkundlichen Wissensgebiete, Akademische Verlagsgesellschaft, m.b.H., Leipzig
From René Vernon who writes:
In this almost symmetrical presentation, Van Wert divides the periodic table metals into:
Strongly Electropositive: Groups 1 to 3, Ln
High-melting Heavy Metals: Transition metals
Low-melting Heavy Metals: Post-transition metalsIf the 15 Rare Earths had been shown as 14, and moved one cell to the left we would have a perfectly symmetrical table.
Elsewhere (p. 38) Van Wert refers to the noble metals as follows:
"With respect to corrosion, the noble metals — gold, the platinum metals, and to a less degree, silver — are in a class by themselves. They are comparatively chemically inert to all common corrodents; only silver is appreciably attacked by sulphur gas."
Van Wert's table also refers to non-metals and to inert gases. On page 7 mention is made of the metalloids:
"There are a few elements, also, that partake of the nature of both metals and nonmetals, under many—indeed, under most—conditions they seem metallic enough, but on occasion their behavior is decidedly nonmetallic. These metalloids, as they are sometimes called, add a further difficulty in the attempt to frame a satisfactory definition of the metallic state."
By 1936, it was known that metalloids had a predominately nonmetallic chemistry (Newth 1894, pp. 7??8; Friend 1914, p. 9). So, on the nonmetal side of house are metalloids; "nonmetals"; and noble gases. Separating out the halogens from the nonmetals yields: metalloids; "nonmetals"; halogens; noble gases.
The net result is four types of metals and four of nonmetals = more symmetry.
| Year: 2023 | PT id = 1289 |
Chemdex: Valence & Oxidation Number Trends
From Mark Winter's review paper Chemdex: quantification and distributions of valence numbers, oxidation numbers, coordination numbers, electron numbers, and covalent bond classes for the elements Dalton Trans., 2024,53, 493-511 https://doi.org/10.1039/D3DT03738J.
The images below show the Valence number (VN) and oxidation number (ON) proportions as percentages for the elements; and Periodic tables displaying valence number proportions (%). (There are few data for Pm and no data for Fr and elements beyond Es.)
The position of H and the group numbers are addressed in the paper.
|
|
|
| What is the Periodic Table Showing? | Periodicity |
© Mark R. Leach Ph.D. 1999 –
Queries, Suggestions, Bugs, Errors, Typos...
If you have any:
Queries
Comments
Suggestions
Suggestions for links
Bug, typo or grammatical error reports about this page,please contact Mark R. Leach, the author, using mark@meta-synthesis.com
This free, open access web book is an ongoing project and your input is appreciated.