Three-dimensional morphology of iron oxide nanoparticles with reactive concave surfaces. A compressed sensing-electron tomography (CS-ET) approach.
about
Advanced electron crystallography through model-based imagingNanomaterial datasets to advance tomography in scanning transmission electron microscopy.A cylindrical specimen holder for electron cryo-tomography.Electron tomography image reconstruction using data-driven adaptive compressed sensing.Selenium segregation in femtosecond-laser hyperdoped silicon revealed by electron tomography.The potential for Bayesian compressive sensing to significantly reduce electron dose in high-resolution STEM images.Reduction of the scanning time by total variation minimization reconstruction for X-ray tomography in a SEM.Three-dimensional characterization of noble-metal nanoparticles and their assemblies by electron tomography.Nanoscale voxel spectroscopy by simultaneous EELS and EDS tomography.Electron Tomography: A Three-Dimensional Analytic Tool for Hard and Soft Materials Research.Compressed Sensing Electron Tomography for Determining Biological Structure.Biological application of Compressed Sensing Tomography in the Scanning Electron Microscope.Advanced electron microscopy for advanced materials.Atomic electron tomography: 3D structures without crystals.Quantitative 3D analysis of huge nanoparticle assemblies.Less is more: how compressed sensing is transforming metrology in chemistry.Sub-nanometer surface chemistry and orbital hybridization in lanthanum-doped ceria nano-catalysts revealed by 3D electron microscopy.Tomographic imaging of the photonic environment of plasmonic nanoparticles.The advent of structural biology in situ by single particle cryo-electron tomography.Accelerating electron tomography reconstruction algorithm ICON with GPU.Three-dimensional characterization of iron oxide (α-Fe2O3) nanoparticles: application of a compressed sensing inspired reconstruction algorithm to electron tomography.A Simple Preparation Method for Full-Range Electron Tomography of Nanoparticles and Fine Powders.A Survey of the Use of Iterative Reconstruction Algorithms in Electron Microscopy.Optimization of Three-Dimensional (3D) Chemical Imaging by Soft X-Ray Spectro-Tomography Using a Compressed Sensing Algorithm.Reverse Monte Carlo reconstruction algorithm for discrete electron tomography based on HAADF-STEM atom counting.The core contribution of transmission electron microscopy to functional nanomaterials engineering.Liquid phase blending of metal-organic frameworks.Imaging Catalysts at Work: A Hierarchical Approach from the Macro- to the Meso- and Nano-scaleA Macroscopically Relevant 3D-Metrology Approach for Nanocatalysis Research
P2860
Q26766374-CC55A76E-26FF-48D2-91C7-E84E0E392E3AQ30489427-1731F86F-E65E-4D1F-BB71-7AEAD216D6F3Q30580526-C44BB585-AB32-4790-9DB9-AE42B0D3919CQ31001333-40DA3467-1DAB-48FC-AD64-22972FBB6641Q34660827-5A010E8A-DC66-4CE9-B614-9FA6EA0BCEACQ35024547-2E7630A4-1D01-42DD-AF98-8C438BCAF2DEQ35226743-F182BA68-0554-40C2-92ED-25E9196E9343Q35226834-9909473B-71E6-4BC0-8088-90DB72016511Q35370766-A2B884E7-D40E-4044-8BC6-CD4166B2730DQ35667804-FE9D3D92-BAE3-4629-B39E-87D137D124EEQ36049632-3C47444F-BF7B-4476-83AB-A460D3A3B005Q36137586-7C51FF2D-83A5-4E71-9BF0-12CA5B525C67Q38036191-54EEB459-D3B3-48A4-919A-8F6530326B0AQ38973144-837B1E2A-F73E-4423-B181-0D53D1AFE262Q39842149-BF6ADA8B-EA18-4739-BB08-1AD29916377AQ40231190-4566A3D5-32DF-46F9-932B-70FCBB076A44Q41020122-7768D86D-45CF-49D2-8861-D43DD3D70EF8Q41042082-61C81D40-6A66-4462-9A12-BEF83D9804B2Q41051422-BF54DA5E-C07A-408B-B0AC-EA01882CA61CQ41051462-C505FFFD-E27D-47AE-8FAB-99F5E572010DQ44981170-6FE1D8F4-8669-48C7-8493-AE2B372896B2Q47264694-1116C601-DA77-49EC-AD6B-F7D2B59BCE74Q47566916-313B503B-2936-422B-9BF1-DFF1244E55B4Q47688331-9E7E6480-A863-4F9A-9A9C-C4147CD5EC14Q50581833-B3092CE7-53BA-4A1A-BF3D-605EA17309C3Q51604278-E55F4DC4-2BE7-4CAF-81A6-5590D9CA24B2Q55233921-05AB9EEF-2C59-4993-AE6F-8C0754058289Q57388980-B98072D5-E2CC-46C8-9C18-FDC7B80BA388Q58643194-E86B93E6-25C5-4568-B185-5D8BF80F66D3
P2860
Three-dimensional morphology of iron oxide nanoparticles with reactive concave surfaces. A compressed sensing-electron tomography (CS-ET) approach.
description
2011 nî lūn-bûn
@nan
2011 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Three-dimensional morphology o ...... n tomography (CS-ET) approach.
@ast
Three-dimensional morphology o ...... n tomography (CS-ET) approach.
@en
Three-dimensional morphology o ...... ed sensing-electron tomography
@nl
type
label
Three-dimensional morphology o ...... n tomography (CS-ET) approach.
@ast
Three-dimensional morphology o ...... n tomography (CS-ET) approach.
@en
Three-dimensional morphology o ...... ed sensing-electron tomography
@nl
prefLabel
Three-dimensional morphology o ...... n tomography (CS-ET) approach.
@ast
Three-dimensional morphology o ...... n tomography (CS-ET) approach.
@en
Three-dimensional morphology o ...... ed sensing-electron tomography
@nl
P50
P356
P1433
P1476
Three-dimensional morphology o ...... n tomography (CS-ET) approach.
@en
P2093
Lynn F Gladden
Rowan Leary
P304
P356
10.1021/NL202253A
P407
P577
2011-10-05T00:00:00Z