{"id":15608,"date":"2016-01-31T09:12:20","date_gmt":"2016-01-31T09:12:20","guid":{"rendered":"http:\/\/www.ch.imperial.ac.uk\/rzepa\/blog\/?p=15608"},"modified":"2016-01-31T09:56:35","modified_gmt":"2016-01-31T09:56:35","slug":"quintuple-bonds-resurfaced","status":"publish","type":"post","link":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?p=15608","title":{"rendered":"Quintuple bonds: resurfaced."},"content":{"rendered":"
\n

\n\tSix years ago, I posted<\/a> on the nature of a then recently reported[1]<\/a><\/span> Cr-Cr quintuple bond. The topic resurfaced as part of the discussion on a more recent post on NSF3<\/sub>, and a sub-topic on the nature of the higher order bonding in C2<\/sub>. The comment<\/a> made a connection between that discussion and the Cr-Cr bond alluded to above. I responded<\/a> briefly to that comment, but because I want to include 3D rotatable surfaces, I expand the discussion here and not in the comment.‡<\/sup>\n<\/p>\n

\n\t\"\"\n<\/p>\n

\n\tFirstly, a quick update. Since the original post, quite a few Cr-Cr quintuple bonds have been reported. In searching the crystal structure database, I used the text "quintuple" as a text search term (since specifying a quintuple bond as such is not supported) along with a Boolean AND<\/strong> using the sub-structure Cr-Cr (with any type of bond allowed). The result is shown below. It is striking that in fact these "quintuple" bonds cluster into a set with a bond distance of ~1.74Å and another with 1.83Å. Are these valence bond isomers?\n<\/p>\n

\n\t \"\"\n<\/p>\n

\n\tNow to the system shown at the top (one of the 1.74Å set). My original post discussed the results of a density functional evaluation of the properties of the electron density in the Cr-Cr region. Most striking was the value of the Laplacian ∇2<\/sup>ρ(r) of this density, the value of +1.45au being the largest ever reported for a pair of identical atoms. I should remind that ∇2<\/sup>ρ(r) is used as one measure of the character of a bond, being the balance between electronic kinetic energy density and potential energy density along a bond. But it is well recognised that the bonding between such transition metals has what is called multi-reference character; the wavefunction is not well described by just a single doubly occupied electronic configuration. More electronic configurations have to be included, and hence a MC-SCF (multi-configuration) self-consistent description of the wavefunction is needed. So as a response to the comment noted above, I decided to carry out CASSCF\/6-311G(d) calculations, in which an active space of electrons and molecular orbitals is specified, and using the geometry previously obtained at the DFT level. Thus a CASSCF(8,8) calculation takes 8 electrons and evaluates all possible configurations arising from placing them into an active space of eight molecular orbitals. With metals unfortunately the active space is likely to be large, and so I decided to computed (10,10), (12,12) and (14,14) CASSCF as well to see if any convergence might occur. The last is close to the limit offered by the program. The values shown below are at the QTAIM line (bond) critical point along the Cr-Cr axis.\n<\/p>\n\n\n\n\n\t\t<\/tr>\n\n\n\n\n\n
\n\t\t\t\tActive space\n\t\t\t<\/th>\n\n\t\t\t\tρ(r)\n\t\t\t<\/th>\n\n\t\t\t\t∇2<\/sup>ρ(r)\n\t\t\t<\/th>\n\n\t\t\t\tTotal energy, Hartree\n\t\t\t<\/th>\n\n\t\t\t\t% of CS config\n\t\t\t<\/th>\n\n\t\t\t\tCalculation DOI\n\t\t\t<\/th>\n<\/tr>\n
\n\t\t\t\t8\n\t\t\t<\/td>\n\n\t\t\t\t.303\n\t\t\t<\/td>\n\n\t\t\t\t1.720\n\t\t\t<\/td>\n\n\t\t\t\t-2383.48049\n\t\t\t<\/td>\n\n\t\t\t\t63\n\t\t\t<\/td>\n\n\t\t\t\t[2]<\/a><\/span>\n\t\t\t<\/td>\n<\/tr>\n
\n\t\t\t\t10\n\t\t\t<\/td>\n\n\t\t\t\t.308\n\t\t\t<\/td>\n\n\t\t\t\t1.612\n\t\t\t<\/td>\n\n\t\t\t\t-2383.68830\n\t\t\t<\/td>\n\n\t\t\t\t61\n\t\t\t<\/td>\n\n\t\t\t\t[3]<\/a><\/span>\n\t\t\t<\/td>\n<\/tr>\n
\n\t\t\t\t12\n\t\t\t<\/td>\n\n\t\t\t\t.308\n\t\t\t<\/td>\n\n\t\t\t\t1.612\n\t\t\t<\/td>\n\n\t\t\t\t-2383.70398\n\t\t\t<\/td>\n\n\t\t\t\t60.6\n\t\t\t<\/td>\n\n\t\t\t\t[4]<\/a><\/span>\n\t\t\t<\/td>\n<\/tr>\n
\n\t\t\t\t14\n\t\t\t<\/td>\n\n\t\t\t\t.308\n\t\t\t<\/td>\n\n\t\t\t\t1.612\n\t\t\t<\/td>\n\n\t\t\t\t-2383.72161\n\t\t\t<\/td>\n\n\t\t\t\t59\n\t\t\t<\/td>\n\n\t\t\t\t[5]<\/a><\/span>\n\t\t\t<\/td>\n<\/tr>\n
\n\t\t\t\tDFT\n\t\t\t<\/td>\n\n\t\t\t\t.313\n\t\t\t<\/td>\n\n\t\t\t\t1.45\n\t\t\t<\/td>\n\n\t\t\t\t–\n\t\t\t<\/td>\n\n\t\t\t\t100\n\t\t\t<\/td>\n\n\t\t\t\t[6]<\/a><\/span>\n\t\t\t<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

\n\tFrom the trend above, we might safely conclude that the CASSCF active space IS convergent, at least for the density if not for the energy. Also convergent are the properties of the density such as ∇2<\/sup>ρ(r), and noteworthy is that the value of this property is even higher than was obtained using single-configuration DFT theory. So the claim that this system has a record such property does not change. Negative values of the Laplacian are normally taken to indicate a conventionally covalent bond, whereas +ve values show the bond has what is called charge-shift character.[7]<\/a><\/span> So these Cr-Cr quintuple bonds must be amongst the most charge-shifted exemplars!\n<\/p>\n

\n\tI show some surfaces (click on the image to get a rotatable model) computed from the CASSCF(14,14) density. Firstly the electron density ρ(r) itself, contoured at 0.25au, showing the high value between the chromium atoms.\n<\/p>\n

\n\t\"\"\n<\/p>\n

\n\tNext, ∇2<\/sup>ρ(r) contoured at ±1.5, revealing its high value in the Cr-Cr region (blue = +ve, red = -ve) and then below at ± 0.25 which includes the covalent bonds of the ligands.\n<\/p>\n

\n\t\"\"\n<\/p>\n

\n\t\"\"\n<\/p>\n

\n\tFinally, the ELF (electron localisation function) function which tries to gather the electron density into localised ELF basins (numbers are the integration of the electron density in this basin). This looks very similar to that shown previously and is striking because there is no basin in the Cr-Cr region. Instead, the localisation is along the Cr-N bonds. One might describe this as saying that the Cr-Cr region is very highly correlated.\n<\/p>\n

\n\t\"\"\n<\/p>\n

\n\t\"\"\n<\/p>\n

\n

\n\t‡<\/sup>It is a limitation of the WordPress system that such objects cannot be included in comments.\n<\/p>\n

\n

References<\/h2>\n
  1. C. Hsu, J. Yu, C. Yen, G. Lee, Y. Wang, and Y. Tsai, \"Quintuply\u2010Bonded Dichromium(I) Complexes Featuring Metal\u2013Metal Bond Lengths of 1.74\u2005\u00c5\", Angewandte Chemie International Edition<\/i>, vol. 47, pp. 9933-9936, 2008. https:\/\/doi.org\/10.1002\/anie.200803859<\/a>\n\n<\/li>\n
  2. H.S. Rzepa, \"C 2 H 6 Cr 2 N 4\", 2016. https:\/\/doi.org\/10.14469\/ch\/191860<\/a>\n\n<\/li>\n
  3. H.S. Rzepa, \"C 2 H 6 Cr 2 N 4\", 2016. https:\/\/doi.org\/10.14469\/ch\/191857<\/a>\n\n<\/li>\n
  4. H.S. Rzepa, \"C 2 H 6 Cr 2 N 4\", 2016. https:\/\/doi.org\/10.14469\/ch\/191858<\/a>\n\n<\/li>\n
  5. H.S. Rzepa, \"C2H6N2O2\", 2016. https:\/\/doi.org\/10.14469\/ch\/191855<\/a>\n\n<\/li>\n
  6. H.S. Rzepa, \"C 2 H 6 Cr 2 N 4\", 2010. https:\/\/doi.org\/10.14469\/ch\/4156<\/a>\n\n<\/li>\n
  7. S. Shaik, D. Danovich, W. Wu, and P.C. Hiberty, \"Charge-shift bonding and its manifestations in chemistry\", Nature Chemistry<\/i>, vol. 1, pp. 443-449, 2009. https:\/\/doi.org\/10.1038\/nchem.327<\/a>\n\n<\/li>\n<\/ol>\n\n<\/div> ","protected":false},"excerpt":{"rendered":"

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Everest, because its there, and chemists have their own version of this. Ever since G. N. Lewis introduced the concept of the electron-pair bond in 1916, the idea of a bond as having a formal bond-order has been seen as a useful way of thinking about molecules.\u2026","rel":"","context":"In "Hypervalency"","block_context":{"text":"Hypervalency","link":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?cat=7"},"img":{"alt_text":"","src":"https:\/\/i0.wp.com\/www.ch.ic.ac.uk\/rzepa\/blog\/wp-content\/uploads\/2010\/02\/Cr.jpg?resize=350%2C200","width":350,"height":200},"classes":[]},{"id":1722,"url":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?p=1722","url_meta":{"origin":15608,"position":1},"title":"Quintuple bonds: part 2","author":"Henry Rzepa","date":"February 20, 2010","format":false,"excerpt":"In the previous post, I ruminated about how chemists set themselves targets. Thus, having settled on describing regions between two (and sometimes three) atoms as bonds, they added a property of that bond called its order. The race was then on to find molecules which exhibit the highest order between\u2026","rel":"","context":"In "Hypervalency"","block_context":{"text":"Hypervalency","link":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?cat=7"},"img":{"alt_text":"","src":"https:\/\/i0.wp.com\/www.ch.ic.ac.uk\/rzepa\/blog\/wp-content\/uploads\/2010\/02\/f2-elf1.jpg?resize=350%2C200&ssl=1","width":350,"height":200,"srcset":"https:\/\/i0.wp.com\/www.ch.ic.ac.uk\/rzepa\/blog\/wp-content\/uploads\/2010\/02\/f2-elf1.jpg?resize=350%2C200&ssl=1 1x, https:\/\/i0.wp.com\/www.ch.ic.ac.uk\/rzepa\/blog\/wp-content\/uploads\/2010\/02\/f2-elf1.jpg?resize=525%2C300&ssl=1 1.5x"},"classes":[]},{"id":17168,"url":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?p=17168","url_meta":{"origin":15608,"position":2},"title":"Molecule of the year? “CrN123”, a molecule with three different types of Cr-N bond.","author":"Henry Rzepa","date":"December 16, 2016","format":false,"excerpt":"Here is a third candidate for the C&EN \"molecule of the year\" vote. This one was shortlisted because it is the first example of a metal-nitrogen complex exhibiting single, double and triple bonds from different nitrogens to the same metal (XUZLUB has a 3D display available at DOI: 10.5517\/CC1JYY6M). Since\u2026","rel":"","context":"In "crystal_structure_mining"","block_context":{"text":"crystal_structure_mining","link":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?cat=1745"},"img":{"alt_text":"","src":"","width":0,"height":0},"classes":[]},{"id":9973,"url":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?p=9973","url_meta":{"origin":15608,"position":3},"title":"A (very) short history of shared-electron bonds.","author":"Henry Rzepa","date":"March 26, 2013","format":false,"excerpt":"The concept of a shared electron bond and its property of an order is almost 100 years old in modern form, when G. N. Lewis suggested a model for single and double bonds that involved sharing either 2 or 4 electrons between a pair of atoms. We tend to think\u2026","rel":"","context":"In "Interesting chemistry"","block_context":{"text":"Interesting chemistry","link":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?cat=4"},"img":{"alt_text":"Click for 3D","src":"https:\/\/i0.wp.com\/www.ch.imperial.ac.uk\/rzepa\/blog\/wp-content\/uploads\/2013\/03\/PYRDRE.jpg?resize=350%2C200","width":350,"height":200},"classes":[]},{"id":1546,"url":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?p=1546","url_meta":{"origin":15608,"position":4},"title":"Blisteringly bent (quadruple) bonds","author":"Henry Rzepa","date":"January 23, 2010","format":false,"excerpt":"So ingrained is the habit to think of a bond as a simple straight line connecting two atoms, that we rarely ask ourselves if they are bent, and if so, by how much (and indeed, does it matter?). Well Hursthouse, Malik, and Sales, as long ago as 1978, asked just\u2026","rel":"","context":"In "Hypervalency"","block_context":{"text":"Hypervalency","link":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?cat=7"},"img":{"alt_text":"","src":"https:\/\/i0.wp.com\/www.ch.ic.ac.uk\/rzepa\/blog\/wp-content\/uploads\/2010\/01\/Cr-Cr.jpg?resize=350%2C200","width":350,"height":200},"classes":[]},{"id":19472,"url":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?p=19472","url_meta":{"origin":15608,"position":5},"title":"What are the highest bond indices for main group and transition group elements?","author":"Henry Rzepa","date":"March 4, 2018","format":false,"excerpt":"A bond index (BI) approximately measures the totals of the bond orders at any given atom in a molecule. Here I ponder what the maximum values might be for elements with filled valence shells. Following Lewis in 1916 who proposed that the full valence shell for main group elements should\u2026","rel":"","context":"In "Interesting chemistry"","block_context":{"text":"Interesting chemistry","link":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?cat=4"},"img":{"alt_text":"","src":"","width":0,"height":0},"classes":[]}],"jetpack_likes_enabled":false,"authors":[{"term_id":2661,"user_id":1,"is_guest":0,"slug":"admin","display_name":"Henry Rzepa","avatar_url":"https:\/\/secure.gravatar.com\/avatar\/897b6740f7f599bca7942cdf7d7914af5988937ae0e3869ab09aebb87f26a731?s=96&d=blank&r=g","0":null,"1":"","2":"","3":"","4":"","5":"","6":"","7":"","8":""}],"_links":{"self":[{"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=\/wp\/v2\/posts\/15608","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=15608"}],"version-history":[{"count":17,"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=\/wp\/v2\/posts\/15608\/revisions"}],"predecessor-version":[{"id":15625,"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=\/wp\/v2\/posts\/15608\/revisions\/15625"}],"wp:attachment":[{"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=15608"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=%2Fwp%2Fv2%2Fcategories&post=15608"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=%2Fwp%2Fv2%2Ftags&post=15608"},{"taxonomy":"author","embeddable":true,"href":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/index.php?rest_route=%2Fwp%2Fv2%2Fppma_author&post=15608"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}