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A collaboration between TU Dortmund and the Pantazis group uncovers a new type of organic compound featuring a neutral, singly-bonded carbon atom
Carbon, with its myriad compounds, is the backbone of life and the central element of organic chemistry. The number of bonds a carbon atom forms with other elements in a compound determines its chemical structure and behavior. Normally a carbon atom shares all four of its valence electrons to create four bonds with other atoms (tetravalent carbon). When fewer bonds are formed, unusual compounds such as carbenes are obtained, which have unique properties exploited in various fields of chemistry and catalysis. Rare cases exist of divalent carbon compounds called carbones, where a central neutral atom in an electronically excited state is stabilized by two bonds with neutral electron-pair donating groups. Now, another milestone was achieved with the synthesis of an organic compound that contains a singly-bonded (monovalent) carbon atom in its ground state. This is an important step in chemistry as it opens up new possibilities for the development of compounds and reactions.
In a groundbreaking study published in Angewandte Chemie, the research teams of Dimitrios A. Pantazis (MPI für Kohlenforschung, Department of Molecular Theory and Spectroscopy), Müge Kasanmascheff, and Max M. Hansmann (TU Dortmund), report a chemical compound featuring a single carbon atom bonded to a phosphorus group, Ph3P→C. The compound was generated from a diazophosphorus ylide precursor by irradiation with ultraviolet (UV) light at very low temperatures, which led to elimination of N2 and formation of Ph3P→C.
Electron paramagnetic resonance (EPR) and electron–nuclear double resonance (ENDOR) spectroscopies revealed that the compound contains two unpaired electrons with parallel spins (a spin-triplet state). Advanced quantum chemical calculations probed the bonding and spin density distribution of the compound, showing that it represents a new type of carbon-centered diradical with a single dative bond between the phosphorus and the terminal carbon. This is the first known compound where a carbon center persists in the same electronic configuration and spin state as that of an isolated ground-state carbon atom.
This fundamental discovery extends the boundaries of carbon chemistry to the extreme bonding situation of a monovalent neutral carbon atom, while paving the way for exploring new organic reactivity with potential implications for synthesis, catalysis, and materials science.
Dr. Dimitrios Pantazis, Research Group Leader, Molecular Theory and Spectroscopy
Water Splitting
+49 208/306-2156
dimitrios.pantazis@kofo.mpg.de
„Ph3PC – A Monosubstituted C(0) Atom in Its Triplet State“, Y. Kutin, T. Koike, M. Drosou, A. Schnegg, D. A. Pantazis, M. Kasanmascheff, M. M. Hansmann, Angew. Chem. Int. Ed. 2025, e202424166. https://doi.org/10.1002/anie.202424166
Synthesis of monosubstituted Ph3P→C by light-triggered dinitrogen elimination (top) and theoretical ...
Dr. Dimitrios Pantazis / MPI für Kohlenforschung
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Synthesis of monosubstituted Ph3P→C by light-triggered dinitrogen elimination (top) and theoretical ...
Dr. Dimitrios Pantazis / MPI für Kohlenforschung
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