Single-molecule conductance investigation of BDT derivatives: An additional pattern found to induce through-space channels beyond π-π Stacking
Article
Li, Y, Xiao, B, Chen, R et al. (2019). Single-molecule conductance investigation of BDT derivatives: An additional pattern found to induce through-space channels beyond π-π Stacking
. CHEMICAL COMMUNICATIONS, 55(57), 8325-8328. 10.1039/c9cc02998b
Li, Y, Xiao, B, Chen, R et al. (2019). Single-molecule conductance investigation of BDT derivatives: An additional pattern found to induce through-space channels beyond π-π Stacking
. CHEMICAL COMMUNICATIONS, 55(57), 8325-8328. 10.1039/c9cc02998b
The through-space conductance of individual molecules is supposed to improve the macroscopic carrier movement, but the most widely acclaimed through-space conductance channel just existed in sufficiently close π-π stacked benzene rings. As a breakthrough to this primary cognition, additional conducting channels were confirmed to exist in non-strict face-to-face aligned thiophenes or phenyl-thiophene in BDT derivatives for the first time.