2019 AIChE Annual Meeting
(181e) Monolayer Two-Dimensional Polymers for Wafer-Scale Heterostructures
Authors
Yu Zhong - Presenter, Columbia University
Jiwoong Park, University of Chicago
Baorui Cheng, University of Chicago
Chibeom Park, University of Chicago
Fauzia Mujid, University of Chicago
Jae-Ung Lee, University of Chicago
Joonki Suh, University of Chicago
Sarah Brown, University of Chicago
Steven J. Sibener, University of Chicago
Hua Zhou, Argonne National Laboratory
Ariana Ray, Cornell University
David A. Muller, Cornell University
Large-scale synthesis of high-quality polymer thin films and heterostructures based on molecular building blocks will lead to the development of organic electronics and artificial solids designed at the molecular level with novel chemical functionalities. In this presentation, I show the synthesis of molecularly designed crystalline films, known as two-dimensional (2D) polymers, with wafer-scale homogeneity in the ultimate monolayer thickness limit. The lattice structure and optical properties of these one-molecule-thick freestanding crystalline films are directly controlled through different molecular building blocks and cross-linking chemistries. These films are synthesized using a newly developed liquid-liquid interfacial growth method called laminar assembly polymerization (LAP). Our 2D polymers are fully compatible with existing large-scale patterning and integration methods, which we successfully demonstrate by producing arrays of hybrid heterostructures and superlattices built layer by layer using 2D polymers and 2D atomic crystals.