Transient chirality inversion during racemization of a helical cobalt(III) complex
Yoko Sakata, Shunsuke Chiba, Shigehisa Akine
Abstract
Significance We first observed a transient chirality inversion on a simple unimolecular platform during the racemization of a chiral helical complex [LCo 3 A 6 ] 3+ , i.e., the helicity changed from P -rich (right-handed) to M -rich (left-handed), which then racemized to a P / M equimolar mixture in spite of the absence of a reagent that could induce the M helix. This transient chirality inversion was observed only in the forward reaction, whereas the reverse reaction showed a simple monotonic change with an induction time. Consequently, the M helicity appeared only in the forward reaction. These forward and reverse reactions constitute a hysteretic cycle. Compounds showing such unique time responses would be useful for developing time-programmable switchable materials that can control the physical/chemical properties in a time-dependent manner.