Blue‐Shift Hydrogen Bonds in Silyltriptycene Derivatives: Antibonding σ* Orbitals of the Si−C Bond as Effective Acceptors of Electron Density

Mames, Adam; Gołowicz, Dariusz; Pietrzak, Mariusz; Kazimierczuk, Krzysztof; Szymański, Sławomir; Ratajczyk, Tomasz

doi:10.1002/cphc.201901141

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“…Further detailed NMR experiments as well as quantum chemistry calculations disclosed a unique interaction between the electron-rich chloride in the peri position and the silyl group [ 125 ]. This interaction was possible to observe via the analysis of spin–spin coupling constants within the silyl group ( Table 1 ).…”

Section: Progress In Triptycene Synthesis and Derivatizationmentioning

confidence: 99%

Triptycene Derivatives: From Their Synthesis to Their Unique Properties

2021

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Since the first preparation of triptycene, great progress has been made with respect to its synthesis and the understanding of its properties. Interest in triptycene-based systems is intense; in recent years, advances in the synthetic methodology and properties of new triptycenes have been reported by researchers from various fields of science. Here, an account of these new developments is given and placed in reference to earlier pivotal works that underpin the field. First, we discuss new approaches to the synthesis of new triptycenes. Progress in the regioselective synthesis of sterically demanding systems is discussed. The application of triptycenes in catalysis is also presented. Next, progress in the understanding of the relations between triptycene structures and their properties is discussed. The unique properties of triptycenes in the liquid and solid states are elaborated. Unique interactions, which involve triptycene molecular scaffolds, are presented. Molecular interactions within a triptycene unit, as well as between triptycenes or triptycenes and other molecules, are also evaluated. In particular, the summary of the synthesis and useful features will be helpful to researchers who are using triptycenes as building blocks in the chemical and materials sciences.

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Section: Progress In Triptycene Synthesis and Derivatizationmentioning

confidence: 99%