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Orthocarbonic acid, carbon hydroxide, or methanetetrol is a chemical compound with the chemical formula or . Its molecular structure consists of a single carbon atom bonded to four hydroxyl groups. It would be therefore a fourfold alcohol. In theory it could lose four protons to give the hypothetical oxocarbon anion orthocarbonate , and is therefore considered an oxoacid of carbon. Orthocarbonic acid is one of the group of that have the general structure of . The term ortho acid is also used to refer to the most hydroxylated acid in a set of .
Orthocarbonic acid is highly unstable and long held to be a hypothetical chemical compound. Calculations show that it decomposes into carbonic acid and water: Carboxylic Acids and Derivatives IUPAC Recommendations on Organic & Biochemical Nomenclature
Researchers predict that orthocarbonic acid is stable at high pressure; hence it may form in the interior of the ice giant planets Uranus and Neptune, where water and methane are common.
Numerous salts of fully deprotonated , such as (calcium orthocarbonate) or (strontium orthocarbonate), have been synthesized under high pressure conditions and structurally characterized by X-ray diffraction. Strontium orthocarbonate, , is stable at atmospheric pressure. Orthocarbonate is tetrahedral in shape, and is isoelectronic to orthonitrate. The C-O distance is 1.41 Angstrom. is an oxide orthocarbonate (tristrontium orthocarbonate oxide), also stable at atmospheric pressure.
A linear polymer which can be described as a (spiro compound) orthocarbonate ester of pentaerythritol, whose formula could be written as , was synthesized in 2002.David T. Vodak, Matthew Braun, Lykourgos Iordanidis, Jacques Plévert, Michael Stevens, Larry Beck, John C. H. Spence, Michael O'Keeffe, Omar M. Yaghi (2002): "One-Step Synthesis and Structure of an Oligo(spiro-orthocarbonate)". Journal of the American Chemical Society, volume 124, issue 18, pages 4942–4943.
The carbon atom in the spiro ester bis-catechol orthocarbonate was found to have tetrahedral bond geometry, contrasting with the square planar geometry of the silicon atom in the analogous orthosilicate ester.H. Meyer, G. Nagorsen (1979): "Structure and reactivity of the orthocarbonic and orthosilicic acid esters of pyrocatechol". Angewandte Chemie International Edition in English, volume 18, issue 7, pages 551-553.
Orthocarbonates may exist in several conformers, that differ by the relative rotation of the C–O–C bridges. The conformation structures of some esters, such as tetraphenoxymethane, tetrakis(3,5-dimethyl-phenoxy)methane, and tetrakis(4-bromophenoxy)methane have been determined by X-ray diffraction.N. Narasimhamurthy, H. Manohar, Ashoka G. Samuelson, Jayaraman Chandrasekhar (1990): "Cumulative anomeric effect: A theoretical and x-ray diffraction study of orthocarbonates". Journal of the American Chemical Society, volume 112, issue 8, pages 2937–2941.
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