Colin Ophus
Colin Ophus
National Center for Electron Microscopy, Molecular Foundry, Lawrence Berkeley National Lab
Verified email at - Homepage
Cited by
Cited by
Short-range order and its impact on the CrCoNi medium-entropy alloy
R Zhang, S Zhao, J Ding, Y Chong, T Jia, C Ophus, M Asta, RO Ritchie, ...
Nature 581 (7808), 283-287, 2020
Four-dimensional scanning transmission electron microscopy (4D-STEM): From scanning nanodiffraction to ptychography and beyond
C Ophus
Microscopy and Microanalysis 25 (3), 563-582, 2019
Observation of room-temperature polar skyrmions
S Das, YL Tang, Z Hong, MAP Gonçalves, MR McCarter, C Klewe, ...
Nature 568 (7752), 368-372, 2019
Measurement of the intrinsic strength of crystalline and polycrystalline graphene
HI Rasool, C Ophus, WS Klug, A Zettl, JK Gimzewski
Nature communications 4 (1), 2811, 2013
Deciphering chemical order/disorder and material properties at the single-atom level
JM Yongsoo Yang, Chien-Chun Chen, M. C. Scott, Colin Ophus, Rui Xu, Alan ...
Nature 542, 75-79, 2017
Metallic NEMS components fabricated from nanocomposite Al–Mo films
Z Lee, C Ophus, LM Fischer, N Nelson-Fitzpatrick, KL Westra, S Evoy, ...
Nanotechnology 17 (12), 3063, 2006
Observing crystal nucleation in four dimensions using atomic electron tomography
J Zhou, Y Yang, Y Yang, DS Kim, A Yuan, X Tian, C Ophus, F Sun, ...
Nature 570 (7762), 500-503, 2019
Three-dimensional coordinates of individual atoms in materials revealed by electron tomography
JM Rui Xu, Chien-Chun Chen, Li Wu, M. C. Scott, W. Theis, Colin Ophus ...
Nature Materials 14, 1099–1103, 2015
Strain mapping at nanometer resolution using advanced nano-beam electron diffraction
VB Ozdol, C Gammer, XG Jin, P Ercius, C Ophus, J Ciston, AM Minor
Applied Physics Letters 106 (25), 2015
Hidden structural and chemical order controls lithium transport in cation-disordered oxides for rechargeable batteries
H Ji, A Urban, DA Kitchaev, DH Kwon, N Artrith, C Ophus, W Huang, Z Cai, ...
Nature communications 10 (1), 592, 2019
Correcting nonlinear drift distortion of scanning probe and scanning transmission electron microscopies from image pairs with orthogonal scan directions
C Ophus, J Ciston, CT Nelson
Ultramicroscopy 162, 1-9, 2016
Unravelling structural ambiguities in lithium-and manganese-rich transition metal oxides
AK Shukla, QM Ramasse, C Ophus, H Duncan, F Hage, G Chen
Nature communications 6 (1), 8711, 2015
Formation of two-dimensional transition metal oxide nanosheets with nanoparticles as intermediates
J Yang, Z Zeng, J Kang, S Betzler, C Czarnik, X Zhang, C Ophus, C Yu, ...
Nature materials 18 (9), 970-976, 2019
py4DSTEM: A software package for four-dimensional scanning transmission electron microscopy data analysis
BH Savitzky, SE Zeltmann, LA Hughes, HG Brown, S Zhao, PM Pelz, ...
Microscopy and Microanalysis 27 (4), 712-743, 2021
Towards data-driven next-generation transmission electron microscopy
SR Spurgeon, C Ophus, L Jones, A Petford-Long, SV Kalinin, MJ Olszta, ...
Nature materials 20 (3), 274-279, 2021
Strain fields in twisted bilayer graphene
NP Kazmierczak, M Van Winkle, C Ophus, KC Bustillo, S Carr, HG Brown, ...
Nature materials 20 (7), 956-963, 2021
A fast image simulation algorithm for scanning transmission electron microscopy
C Ophus
Advanced Structural and Chemical Imaging 3 (13), 11, 2017
Diffraction imaging of nanocrystalline structures in organic semiconductor molecular thin films
O Panova, C Ophus, CJ Takacs, KC Bustillo, L Balhorn, A Salleo, ...
Nature materials 18 (8), 860-865, 2019
Efficient linear phase contrast in scanning transmission electron microscopy with matched illumination and detector interferometry
C Ophus, J Ciston, J Pierce, TR Harvey, J Chess, BJ McMorran, C Czarnik, ...
Nature communications 7 (1), 10719, 2016
Highly monodisperse core–shell particles created by solid-state reactions
V Radmilovic, C Ophus, EA Marquis, MD Rossell, A Tolley, A Gautam, ...
Nature materials 10 (9), 710-715, 2011
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Articles 1–20