Design Rules of Efficient Ion Conducting Polymers: From Block Copolymers to Single-Ion Polymers

Colloquium | October 3 | 4-6 p.m. | 180 Tan Hall

 Moon Jeong Park, Pohang University of Science and Technology

 Department of Chemical Engineering

Over the past decades, polymers with tethered ionic groups have been widely investigated as components of electrochemical devices to address the growing demand for clean energy. Despite steadfast efforts to these materials, quantitative understanding of the factors governing the transport properties of these materials is in its infancy. In this talk, I will present the controlled synthesis, self-assembly, and modulated ion clustering behavior of ion-containing polymers as the ways to improve their ion transport properties. The creation of well-defined self-assembled morphologies in such materials is particularly highlighted as a novel prospective. Moreover, confinement of ions to ordered nanoscale domains offered a platform for creating nearly homogeneous ionic phases with a radically decreased potential barrier to ion conduction. A new means to control the morphology and conductivity of block copolymer electrolytes by the inclusion of ionic units at the chain ends will be also addressed. With orthogonal control over the type and number of end groups in polymers, this approach permitted the synthesis of polymer electrolytes with controlled crystallinity, improved mechanical strength, and enriched nanostructures with significant enhancement in ion transport properties. Lastly, I will briefly introduce on-going work of our group that demonstrate the high potential of single-ion polymers with crystalline protogenic channels as high-conductivity polymer electrolytes.

 irisoacosta@berkeley.edu