posted on 2020-03-25, 19:15authored byAkop Yepremyan, Magy A. Mekhail, Brian P. Niebuhr, Kristof Pota, Nishanth Sadagopan, Timothy M. Schwartz, Kayla N. Green
The number of substituted
pyridine pyridinophanes found in the
literature is limited due to challenges associated with 12-membered
macrocycle and modified pyridine synthesis. Most notably, the electrophilic
character at the 4-position of pyridine in pyridinophanes presents
a unique challenge for introducing electrophilic chemical groups.
Likewise, of the few reported, most substituted pyridine pyridinophanes
in the literature are limited to electron-donating functionalities.
Herein, new synthetic strategies for four new macrocycles bearing
the electron-withdrawing groups CN, Cl, NO2, and CF3 are introduced. Potentiometric titrations were used to determine
the protonation constants of the new pyridinophanes. Further, the
influence of such modifications on the chemical behavior is predicted
by comparing the potentiometric results to previously reported systems.
X-ray diffraction analysis of the 4-Cl substituted species and its
Cu(II) complex are also described to demonstrate the metal binding
nature of these ligands. DFT analysis is used to support the experimental
findings through energy calculations and ESP maps. These new molecules
serve as a foundation to access a range of new pyridinophane small
molecules and applications in future work.