WP1
First, investigation on preparation of a linear molecular ratchet that can load, transport and release a substrate in a unidirectional manner had been explored. The employment of dibenzylamine/methyl trizolium moieties as binding units for crown ether based macrocycle effectively provided a driving force for switching the position of the macrocycle along the track; the usage of the hydrazone, disulfide barriers then gave access to the unidirectional transporting the macrocycle along the track in response to acid-base oscillation.
Operation of the molecular ratchet with either sequential addition of trifluoroacetic acid and trimethylamine or trichloroacetic acid as chemical fuel can successfully realize the aim of loading, transporting and releasing a cargo.
WP2
A molecular ratchet with different handedness of dibenzylamine attaching to both sides of the triazolium unit was synthesized. A 2’,2’’-quaterphenyl 26-crown-8 ether was employed for reading out the specific handedness on each binding unit.
Stepwise operation with acid protonated the dibenzylamine, resulting the pumping of the macrocycle onto the track from solution and its binding with the first chiral benzylammonium unit. This led to a unique Circular Dichroism (CD) readout through supramolecular recognition and amplification. Further basification of the system with trimethylamine in presence of disulfide neutralized the benzylammonium moiety, opened the disulfide barrier, locked the hydrazone barrier, drove the movement of the macrocycle to the triazolium moiety. Because of the non-chiral property of triazolium unit, the macrocycle exhibited a non-chiral CD readout. Then the system was acidified again in presence of hydrazine, realizing the macrocycle moving to bind with the last chiral benzylammonium unit. The macrocycle reported an opposite CD readout comparing to the first chiral unit it binds.
Next, another molecular ratchet with same handedness of dibenzylamine was synthesized. Operation with sequential addition of acid and base resulted a similar CD readout when the macrocycle bound with the first and last chiral benzylamine units.
Last, operation with pulses of a chemical fuel can realize the unidirectional transportation of the modified macrocycle on the chiral molecular ratchet and a similar CD readout as the stepwise operation.
Another molecular ratchet with same handedness of dibenzylamine on first and third compartment was synthesized and tested.
WP3
Following the developments made in WP1 and WP2, the investigation of ’read-out’ information directed conformation changes of macrocycle for catalysis was explored. A model of modified macrocycle employed the phosphine ligand and amide linker was synthesized and used for transition-metal-catalysed asymmetric synthesis. The unique point chiral information of each unit on the track can define the conformation of the macrocycle in different way, leading to the opposite helicity of the bisphophine ligand and spatial difference between the two phosphine groups, which then exhibit enantioselective preferences. At the conclusion of the project, tests for the catalysis are being carried out.
Dissemination and outreach activities envisioned during the project were highly affected due to the COVID-19 pandemic global situation.