# | Title | Journal | Year | Citations |
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1 | Progress in aberration-corrected scanning transmission electron microscopy | Microscopy (Oxford, England) | 2001 | 156 |
2 | Phase measurement of atomic resolution image using transport of intensity equation | Microscopy (Oxford, England) | 2005 | 152 |
3 | Digital holography and its multidimensional imaging applications: a review | Microscopy (Oxford, England) | 2018 | 142 |
4 | The potential for Bayesian compressive sensing to significantly reduce electron dose in high-resolution STEM images | Microscopy (Oxford, England) | 2014 | 140 |
5 | Lipid droplets: size matters | Microscopy (Oxford, England) | 2011 | 130 |
6 | Aberrations and adaptive optics in super-resolution microscopy | Microscopy (Oxford, England) | 2015 | 124 |
7 | Monochromated STEM with a 30 meV-wide, atom-sized electron probe | Microscopy (Oxford, England) | 2013 | 101 |
8 | Introduction to super-resolution microscopy | Microscopy (Oxford, England) | 2014 | 93 |
9 | Transfer learning based deep CNN for segmentation and detection of mitoses in breast cancer histopathological images | Microscopy (Oxford, England) | 2019 | 85 |
10 | Principles of cryo-EM single-particle image processing | Microscopy (Oxford, England) | 2016 | 80 |
11 | Direct imaging of lithium atoms in LiV2O4 by spherical aberration-corrected electron microscopy | Microscopy (Oxford, England) | 2010 | 76 |
12 | Scanning transmission electron microscopy and its application to the study of nanoparticles and nanoparticle systems | Microscopy (Oxford, England) | 2005 | 73 |
13 | Nano-palpation AFM and its quantitative mechanical property mapping | Microscopy (Oxford, England) | 2014 | 67 |
14 | Measurement of vibrational spectrum of liquid using monochromated scanning transmission electron microscopy–electron energy loss spectroscopy | Microscopy (Oxford, England) | 2014 | 66 |
15 | Structome of Saccharomyces cerevisiae determined by freeze-substitution and serial ultrathin-sectioning electron microscopy | Microscopy (Oxford, England) | 2011 | 65 |
16 | Atomic force microscopy in biofilm study | Microscopy (Oxford, England) | 2014 | 62 |
17 | Constituent elements and their distribution in the radioactive Cs-bearing silicate glass microparticles released from Fukushima nuclear plant | Microscopy (Oxford, England) | 2016 | 61 |
18 | Evaluation of EELS spectrum imaging data by spectral components and factors from multivariate analysis | Microscopy (Oxford, England) | 2018 | 59 |
19 | The origins and evolution of freeze-etch electron microscopy | Microscopy (Oxford, England) | 2011 | 56 |
20 | Recent advancements in structured-illumination microscopy toward live-cell imaging | Microscopy (Oxford, England) | 2015 | 56 |
21 | In situ observation of the growth mechanisms of carbon nanotubes under diverse reaction conditions | Microscopy (Oxford, England) | 2005 | 54 |
22 | Development of Cs and Cc correctors for transmission electron microscopy | Microscopy (Oxford, England) | 2013 | 54 |
23 | Attainment of 40.5 pm spatial resolution using 300 kV scanning transmission electron microscope equipped with fifth-order aberration corrector | Microscopy (Oxford, England) | 2018 | 51 |
24 | Automated data collection in single particle electron microscopy | Microscopy (Oxford, England) | 2016 | 48 |
25 | Single-particle cryo-EM data acquisition by using direct electron detection camera | Microscopy (Oxford, England) | 2016 | 46 |
26 | Development of an environmental high-voltage electron microscope for reaction science | Microscopy (Oxford, England) | 2013 | 45 |
27 | Mapping structure and morphology of amorphous organic thin films by 4D-STEM pair distribution function analysis | Microscopy (Oxford, England) | 2019 | 45 |
28 | In situ quantitative analysis of etching process of human teeth by atomic force microscopy | Microscopy (Oxford, England) | 2005 | 44 |
29 | A review of fine structures of nanoporous materials as evidenced by microscopic methods | Microscopy (Oxford, England) | 2013 | 44 |
30 | Atomic-resolution environmental TEM for quantitativein-situmicroscopy in materials science | Microscopy (Oxford, England) | 2013 | 44 |
31 | Two promising future developments of cryo-EM: capturing short-lived states and mapping a continuum of states of a macromolecule | Microscopy (Oxford, England) | 2016 | 44 |
32 | Direct observation of cesium at the interlayer region in phlogopite mica | Microscopy (Oxford, England) | 2014 | 43 |
33 | Sample preparation of biological macromolecular assemblies for the determination of high-resolution structures by cryo-electron microscopy | Microscopy (Oxford, England) | 2016 | 43 |
34 | Managing dose-, damage- and data-rates in multi-frame spectrum-imaging | Microscopy (Oxford, England) | 2018 | 42 |
35 | Visualization of yeast cells by electron microscopy | Microscopy (Oxford, England) | 2012 | 41 |
36 | Performances of an 80–200 kV microscope employing a cold-FEG and an aberration-corrected objective lens | Microscopy (Oxford, England) | 2013 | 41 |
37 | Development of high-resolution cathodoluminescence system for STEM and application to plasmonic nanostructures | Microscopy (Oxford, England) | 2016 | 41 |
38 | Structome analysis of Escherichia coli cells by serial ultrathin sectioning reveals the precise cell profiles and the ribosome density | Microscopy (Oxford, England) | 2017 | 41 |
39 | On the origin of transverse incoherence in Z-contrast STEM | Microscopy (Oxford, England) | 2001 | 40 |
40 | Calibration of projector lens distortions | Microscopy (Oxford, England) | 2005 | 40 |
41 | Optimizing the environment for sub-0.2 nm scanning transmission electron microscopy | Microscopy (Oxford, England) | 2001 | 39 |
42 | Problems in obtaining perfect images by single-particle electron cryomicroscopy of biological structures in amorphous ice | Microscopy (Oxford, England) | 2013 | 38 |
43 | New developments in electron microscopy for serial image acquisition of neuronal profiles | Microscopy (Oxford, England) | 2015 | 38 |
44 | Resolving 45-pm-separated Si–Si atomic columns with an aberration-corrected STEM | Microscopy (Oxford, England) | 2015 | 38 |
45 | Generalized single-particle cryo-EM – a historical perspective | Microscopy (Oxford, England) | 2016 | 38 |
46 | Application of machine learning techniques to electron microscopic/spectroscopic image data analysis | Microscopy (Oxford, England) | 2020 | 38 |
47 | Extensive use of FRET in biological imaging | Microscopy (Oxford, England) | 2013 | 37 |
48 | A guide to use photocontrollable fluorescent proteins and synthetic smart fluorophores for nanoscopy | Microscopy (Oxford, England) | 2015 | 37 |
49 | In situSEM observation of the Si negative electrode reaction in an ionic-liquid-based lithium-ion secondary battery | Microscopy (Oxford, England) | 2015 | 37 |
50 | Three-dimensional STEM for observing nanostructures | Microscopy (Oxford, England) | 2001 | 36 |