Robust Ultraclean Atomically Thin Membranes for Atomic-resolution Electron Microscopy

Overview

Journal Nat Commun

Specialty Biology

Date 2020 Jan 30

PMID 31992713

Citations 16

Authors

Liming Zheng

Yanan Chen

Ning Li

Jincan Zhang

Nan Liu

Junjie Liu

Wenhui Dang

Bing Deng

Yanbin Li

Xiaoyin Gao

Congwei Tan

Zi Yang

Shipu Xu

Mingzhan Wang

Hao Yang

Luzhao Sun

Yi Cui

Xiaoding Wei

Peng Gao

Hong-Wei Wang

Hailin Peng

Affiliations

Soon will be listed here.

Abstract

The fast development of high-resolution electron microscopy (EM) demands a background-noise-free substrate to support the specimens, where atomically thin graphene membranes can serve as an ideal candidate. Yet the preparation of robust and ultraclean graphene EM grids remains challenging. Here we present a polymer- and transfer-free direct-etching method for batch fabrication of robust ultraclean graphene grids through membrane tension modulation. Loading samples on such graphene grids enables the detection of single metal atoms and atomic-resolution imaging of the iron core of ferritin molecules at both room- and cryo-temperature. The same kind of hydrophilic graphene grid allows the formation of ultrathin vitrified ice layer embedded most protein particles at the graphene-water interface, which facilitates cryo-EM 3D reconstruction of archaea 20S proteasomes at a record high resolution of ~2.36 Å. Our results demonstrate the significant improvements in image quality using the graphene grids and expand the scope of EM imaging.

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References

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