19462-79-4Relevant articles and documents
Alumina-Mediated π-Activation of Alkynes
Akhmetov, Vladimir,Amsharov, Konstantin,Feofanov, Mikhail,Sharapa, Dmitry I.
, p. 15420 - 15426 (2021/09/30)
The ability to induce powerful atom-economic transformation of alkynes is the key feature of carbophilic π-Lewis acids such as gold- and platinum-based catalysts. The unique catalytic activity of these compounds in electrophilic activations of alkynes is explained through relativistic effects, enabling efficient orbital overlapping with π-systems. For this reason, it is believed that noble metals are indispensable components in the catalysis of such reactions. In this study, we report that thermally activated γ-Al2O3activates enynes, diynes, and arene-ynes in a manner enabling reactions that were typically assigned to the softest π-Lewis acids, while some were known to be triggered exclusively by gold catalysts. We demonstrate the scope of these transformations and suggest a qualitative explanation of this phenomenon based on the Dewar-Chatt-Duncanson model confirmed by density functional theory calculations.
Organic compound, and electronic component and electronic device comprising same
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Paragraph 0144; 0160-0165, (2021/03/24)
The invention provides an organic compound, an electronic component thereof and an electronic device, which belong to the technical field of organic electroluminescence. According to the organic compound disclosed by the invention, molecules contain adamantane-phenanthroindole structures, so that the electron density of a conjugated system is increased, and the hole conduction efficiency of the organic compound is further improved. When the organic electroluminescent material provided by the invention is applied to a functional layer of an organic electroluminescent device, the performance ofthe organic electroluminescent device can be improved.
Organic compound, and electronic element and electronic device using same
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Paragraph 0112; 0124-0128, (2021/06/12)
The present application relates to an organic compound, and an electronic element and an electronic device using the same. The organic compound has a structure as shown in the following formula 1, at least one of X1, X2 and X3 is nitrogen, and the balance is C (R') . The organic compound has excellent photoelectric properties, can improve the luminous efficiency of a device, and can reduce the working voltage.