Literature DB >> 28898486

High-Pressure Chemistry and the Mechanochemical Polymerization of [5]-Cyclo-p-phenylene.

Lili Qiu1, Miriam Peña-Alvarez2, Mercedes Taravillo2, Paul J Evans3, Evan R Darzi3, Ramesh Jasti3, P Mayorga Burrezo4, Juan T López Navarrete4, Valentín G Baonza2, Juan Casado2, Miklos Kertesz1.   

Abstract

Evidence for the surprising formation of polymeric phases under high pressure for conjugated nanohoop molecules was found. This paper represents one of the unique cases, in which the molecular-level effects of pressure in crystalline organic solids is addressed, and provides a general approach based on vibrational Raman spectroscopy combining experiments and computations. In particular, we studied the structural and supramolecular chemistry of the cyclic conjugated nanohoop molecule [5]cyclo-para-phenylene ([5]CPP) under high pressures up to 10 GPa experimentally and up to 20 GPa computationally. The theoretical modeling for periodic crystals predicts good agreements with the experimentally obtained Raman spectra in the molecular phase. In addition, we have discovered two stable polymeric phases that arise in the simulation. The critical pressures in the simulation are too high, but the formation of polymeric phases at high pressures provides a natural explanation for the observed irreversibility of the Raman spectra upon pressure release between 6 and 7 GPa. The geometric parameters show a deformation toward quinonoid structures at high pressures accompanied by other deformations of the [5]CPP nanohoops. The quinonoidization of the benzene rings is linked to the systematic change of the bond length alternation as a function of the pressure, providing a qualitative interpretation of the observed spectral shifts of the molecular phase.
© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  Raman spectroscopy; density functional calculations; high-pressure organics; mechanochemistry; quinonoidization

Year:  2017        PMID: 28898486     DOI: 10.1002/chem.201703435

Source DB:  PubMed          Journal:  Chemistry        ISSN: 0947-6539            Impact factor:   5.236


  1 in total

1.  Linear, Non-Conjugated Cyclic and Conjugated Cyclic Paraphenylene under Pressure.

Authors:  Miriam Peña-Álvarez; Samuele Fanetti; Naomi Falsini; Giulia Novelli; Juan Casado; Valentín G Baonza; Mercedes Taravillo; Simon Parsons; Roberto Bini; Margherita Citroni
Journal:  Molecules       Date:  2019-09-26       Impact factor: 4.411

  1 in total

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