Two dimensional (2D) materials continue to hold great promise for future electronics, due to their atomic-scale thicknesses and wide range of tunable properties. However, commercial efforts in this field are relatively recent, and much progress is required to fully realize 2D materials for commercial success. Here, we present a roadmap for the realization of electronic-grade 2D materials. We discuss technology drivers, along with key aspects of synthesis and materials engineering required for development of these materials. Additionally, we highlight several fundamental milestones required for realization of electronic-grade 2D materials, and intend this article to serve as a guide for researchers in the field.
Cite
@article{arxiv.1808.10514,
title = {A Roadmap for Electronic Grade 2-Dimensional Materials},
author = {Natalie Briggs and Shruti Subramanian and Zhong Lin and Xufan Li and Xiaotian Zhang and Kehao Zhang and Kai Xiao and David Geohegan and Robert Wallace and Long-Qing Chen and Mauricio Terrones and Aida Ebrahimi and Saptarshi Das and Joan Redwing and Christopher Hinkle and Kasra Momeni and Adri van Duin and Vin Crespi and Swastik Kar and Joshua A. Robinson},
journal= {arXiv preprint arXiv:1808.10514},
year = {2019}
}