Chemical Vapor Deposition and High-Resolution Patterning of a Highly Conductive Two-Dimensional Coordination Polymer Film
Víctor Rubio‐Giménez, Giel Arnauts, Mingchao Wang, Eduardo Sergio Oliveros Mata, Xing Huang, Tianshu Lan, Max L. Tietze, Dmitry E. Kravchenko, Jorid Smets, Nathalie Wauteraerts, Azat Khadiev, Dmitri Novikov, Denys Makarov, Renhao Dong⧫, Rob Ameloot
Abstract
Crystalline coordination polymers with high electrical conductivities and charge carrier mobilities might open new opportunities for electronic devices. However, current solvent-based synthesis methods hinder compatibility with microfabrication standards. Here, we describe a solvent-free chemical vapor deposition method to prepare high-quality films of the two-dimensional conjugated coordination polymer Cu-BHT (BHT = benzenehexanothiolate). This approach involves the conversion of a metal oxide precursor into Cu-BHT nanofilms with a controllable thickness (20-85 nm) and low roughness (<10 nm) through exposure to the vaporized organic linker. Moreover, the restricted metal ion mobility during the vapor-solid reaction enables high-resolution patterning via both bottom-up lithography, including the fabrication of micron-sized Hall bar and electrode patterns to accurately evaluate the conductivity and mobility values of the Cu-BHT films.