Details

Autor(en) / Beteiligte

• Ghora, Madhubrata
• Manna, Ranjit Kumar
• Park, Sang Kyu
• Oh, Sangyoon
• Kim, Sung-Il
• Park, Soo Young
• Gierschner, Johannes
• Varghese, Shinto

Titel

Molecular Packing Topology and Interactions to Decipher Mechanical Compliances in Dicyano-distyrylbenzene Derivatives

Ist Teil von

• Chemistry : a European journal, 2024-05, p.e202401023-e202401023

Ort / Verlag

Germany

Erscheinungsjahr

2024

Link zum Volltext

Quelle

Wiley Online Library

Beschreibungen/Notizen

• Flexible optoelectronics is the need of the hour as the market moves toward wearable and conformable devices. Crystalline π-conjugated materials offer high performance as active materials compared to their amorphous counterpart, but they are typically brittle. This poses a significant challenge that needs to be overcome to unfold their potential in optoelectronic devices. Unveiling the molecular packing topology and identifying interaction descriptors that can seamlessly accommodate strain offers essential guiding principles for developing conjugated materials as active components in flexible optoelectronics. The molecular packing and interaction topology of eight crystal systems of dicyano-distyrylbenzene derivatives are investigated. Face-to-face π-stacks in an inclined orientation relative to the bending surface can accommodate expansion and compression with minimal molecular motion from their equilibrium positions. This configuration exhibits good compliance towards mechanical strain, while a similar structure with a criss-cross arrangement capable of distributing applied strain equally in opposite directions enhances the flexibility. Molecular arrangements that cannot reversibly undergo expansion and compression exhibit brittleness. In the isometric CT crystals, the disproportionate strength of the interactions along the bending plane and orthogonal directions makes these materials sustain a moderate bending strain. These results provide an updated explanation for the elastic bending in semiconducting π-conjugated crystals.