Periodic Reporting for period 4 - Strained2DMaterials (Unlocking new physics in controllably strained two-dimensional materials)
Período documentado: 2020-05-01 hasta 2022-04-30
To enable progress along these main directions, we had to improve the quality of 2D materials (2DMs) significantly. Specifically, we found approaches to characterize the presence of defects, and scattering channels, and improve the gating efficiency of 2DMs. Specifically, we demonstrated the use of excitonic resonance to characterize the presence of surface disorder, the effect of defects on spin transport across 2DM interfaces, showed the approach to generate record electric fields up to 3V/nm in a solid, and understood the effect of disorder on dielectric screening. The work was disseminated in scientific publications, press-releases, and popular articles.
1) Discovery of a non-linear Hooke's law in crumpled graphene
2) Experimental discovery of exciton/trion funneling in non-uniformly strained TMDCs and single quantum emitters in non-uniformly strained hBN
3) Development of NEMS devices based on coupled SiNx/graphene hybrids: ultrasensitive mechanical amplifiers and devices with tunable nonlinearities
4) Development of approaches to non-uniform strain engineering
5) Development of approaches to chemically engineer 2D materials
6) Demonstration of strain-controlled 2D "phononic crystals"
7) Development of techniques to probe surface contamination of 2D materials, towards the creation of devices with well-characterized mechanical properties.
8) The demonstration of techniques for induction of extreme electrical fields, the study of physical phenomena at these fields