Stress acidulated amphoteric molecules and mechanochromism via reversible intermolecular proton transfer
Chemical Communications2013Vol. 49(59), pp. 6587–6589
Citations Over TimeTop 11% of 2013 papers
Yi Wang, Minjie Li, Yumo Zhang, Jin Yang, Shaoyin Zhu, Lan Sheng, Xudong Wang, Bing Yang, Sean Xiao‐An Zhang
Abstract
Stress has been proved to acidulate amphoteric molecules and promote an intermolecular proton transfer, which results in a significant absorption and emission change. The stress acidulated amphoteric molecules open a new avenue for developing mechanochromic materials and anticipate many broad applications such as stress/pressure sensors and rewritable media.
Related Papers
- → Intermolecular Contrast in Atomic Force Microscopy Images without Intermolecular Bonds(2014)153 cited
- → A positively charged aggregation-induced emission (AIE) luminogen as an ultra-sensitive mechanochromic luminescent material: design, synthesis and versatile applications(2021)30 cited
- → Towards meso‐Ester BODIPYs with Aggregation‐Induced Emission Properties: The Effect of Substitution Positions(2015)41 cited
- → Tetraphenylethene-based highly emissive fluorescent molecules with aggregation-induced emission (AIE) and various mechanofluorochromic characteristics(2018)32 cited
- → Understanding the Nature of the Intermolecular Interactions in Molecular Crystals. A Theoretical Perspective(2006)1 cited