749875-40-9Relevant academic research and scientific papers
Aromatic donor-acceptor charge-transfer and metal-ion-complexation-assisted folding of a synthetic polymer
Ghosh, Suhrit,Ramakrishnan
, p. 3264 - 3268 (2004)
Designer folds: The interplay of three design elements (aromatic donor-acceptor charge-transfer complexation, solvophobic effect, and metal-ion complexation) guided the preparation of a folded structure (see picture) in a synthetic macromolecule. Evidence
Control over the macrocyclisation pathway and product topology in a copper-templated catenane synthesis
Yee, Chi-Chung,Ng, Antony Wing Hung,Au-Yeung, Ho Yu
supporting information, p. 6169 - 6172 (2019/06/07)
We report here that the product topology in a copper-templated catenane synthesis can be controlled by favouring a particular macrocyclisation pathway, offering an additional strategy for improving the efficiency of catenane formation. A linear [4]catenan
Structural fine-tuning of (-donor-spacer-acceptor-spacer-)n type foldamers. Effect of spacer segment length, temperature, and metal-ion complexation on the folding process
Ghosh, Suhrit,Ramakrishnan
, p. 676 - 686 (2007/10/03)
The synthesis of a series of polymers (PDA-nOE) containing an alternating arrangement of electron rich (donor) and electron deficient (acceptor) aromatic units, which are linked by flexible oligo(oxyethylene) (nOE) spacers, is reported. The length of the
