American Chemical Society
Browse

Quantifying Implantation-Induced Damage and Point Defects with Multislice Electron Ptychography

Posted on 2025-04-15 - 21:03
Here, we use multislice electron ptychography to quantify damage introduced by ion implantation of Er into 4H-SiC. Comparing reconstructed volumes from experiment (each 2000 nm3) along the implantation direction, the crystal damage is quantified and compared to pristine SiC. Using simulations, we establish that the implantation-induced static displacements limit both Er dopant and silicon vacancy detection. The corresponding damage in the experiment is found to occur up to a depth of 100 nm and is significantly deeper than expected from implantation simulations, ignoring crystallography. Beyond this depth, we show that silicon vacancies can be identified within the sample volume and can be used to measure their local strain. Overall, these results underscore the power of multislice electron ptychography to quantify the impacts of implantation and as a tool to help guide electronic device process optimization.

CITE THIS COLLECTION

DataCite
No result found
or
Select your citation style and then place your mouse over the citation text to select it.

SHARE

email
need help?