Title: From Symmetry Breaking to Unraveling the Origin of the Chirality of Ligated Au₁₃Cu₂ Nanoclusters

Author: Guocheng Deng  Dr. Sami Malola  Juanzhu Yan  Yingzi Han  Peng Yuan  Dr. Chaowei Zhao Xiting Yuan  Dr. Shuichao Lin  Prof. Zichao Tang  Prof. Boon K. Teo  Prof. Hannu Häkkinen Prof. Nanfeng Zheng

Summary:

A general method, using mixed ligands (here diphosphines and thiolates) is devised to turn an achiral metal cluster, Au₁₃Cu₂, into an enantiomeric pair by breaking (lowering) the overall molecular symmetry with the ligands. Using an achiral diphosphine, a racemic [Au₁₃Cu₂(DPPP)₃(SPy)₆]⁺ was prepared which crystallizes in centrosymmetric space groups. Using chiral diphosphines, enantioselective synthesis of an optically pure, enantiomeric pair of [Au₁₃Cu₂((2r,4r)/(2s,4s)‐BDPP)₃(SPy)₆]⁺ was achieved in one pot. Their circular dichroism (CD) spectra give perfect mirror images in the range of 250–500 nm with maximum anisotropy factors of 1.2×10⁻³. DFT calculations provided good correlations with the observed CD spectra of the enantiomers and, more importantly, revealed the origin of the chirality. Racemization studies show high stability (no racemization at 70 °C) of these chiral nanoclusters, which hold great promise in applications such as asymmetry catalysis.

Full Link:http://onlinelibrary.wiley.com/doi/10.1002/anie.201800327/full