The existence of large aromatic monocycles has been proved impossible based on interaction of three-electron bonds through the cycle at distances between the bonds (through the cycle) greater than 3.5 Å due to the lack of energy interaction (the length of chemical bonds is in the range of distances 0.74 Å – 3.5 Å). The chemical bond (two-electron and three-electron) is considered on the assumption that the electrons in a chemical bond can be regarded as being in an entangled quantum state, that is, the chemical bond is seen as a new "indivisible" particle. There has been provided an algorithm for calculating the two-electron chemical bond "on the tip of the pen". An attempt was made to explain the mechanism of interaction of particles in an entangled quantum state on the basis of a new model of the Interfering Universe.
Comments: 9 Pages. This work is published (as part) in journal "Organic Chemistry: Current Research" (2017, Volume 6, Issue 2) https://www.omicsonline.org/open-access/theory-of-threeelectron-bond-in-the-four-works-with-brief-comments-2161-0401-1000182.pdf
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