Abstract
Coupled ionic and electronic transport underpins processes as diverse as electrochemical energy conversion, biological signaling, and soft adaptive electronics. Yet, how chemical environments such as pH modulate this coupling at the molecular scale remains poorly understood. Here, we show that the protonation state of carboxylated polythiophenes provides precise chemical control over ion dynamics, doping efficiency, solvent uptake and mechanical response. The findings establish molecular acidity as a general strategy to program ionic preference and mechanical stability, offering design principles for pH-responsive mixed conductors and soft electronic materials that couple ionic, electronic, and mechanical functionality.
Rajiv Giridharagopal
Chief scientist at the Ginger lab
Raj is the ‘Cheif Scientist’ and a senior research coordinater at the Ginger lab
David Ginger
B. Seymour Rabinovitch Endowed Chair in Chemistry
David Ginger is the the B. Seymour Rabinovitch Endowed Chair in Chemistry at the University of Washington, and the PI of the ginger group