Application of EELS and EFTEM to the life sciences enabled by the contributions of Ondrej Krivanek. Leapman, R. D. Ultramicroscopy, 180:180–187, September, 2017.
Application of EELS and EFTEM to the life sciences enabled by the contributions of Ondrej Krivanek [link]Paper  doi  abstract   bibtex   
The pioneering contributions of Ondrej Krivanek to the development of electron energy loss spectrometers, energy filters, and detectors for transmission and scanning transmission electron microscopes have provided researchers with indispensible tools across a wide range of disciplines in the physical sciences, ranging from condensed matter physics, to chemistry, mineralogy, materials science, and nanotechnology. In addition, the same instrumentation has extended its reach into the life sciences, and it is this aspect of Ondrej Krivanek's influential contributions that will be surveyed here, together with some personal recollections. Traditionally, electron microscopy has given a purely morphological view of the biological structures that compose cells and tissues. However, the availability of high-performance electron energy loss spectrometers and energy filters offers complementary information about the elemental and chemical composition at the subcellular scale. Such information has proven to be valuable for applications in cell and structural biology, microbiology, histology, pathology, and more generally in the biomedical sciences.
@article{leapman_application_2017,
	series = {Ondrej {Krivanek}: {A} research life in {EELS} and aberration corrected {STEM}},
	title = {Application of {EELS} and {EFTEM} to the life sciences enabled by the contributions of {Ondrej} {Krivanek}},
	volume = {180},
	issn = {0304-3991},
	url = {https://www.sciencedirect.com/science/article/pii/S0304399117300165},
	doi = {10.1016/j.ultramic.2017.01.002},
	abstract = {The pioneering contributions of Ondrej Krivanek to the development of electron energy loss spectrometers, energy filters, and detectors for transmission and scanning transmission electron microscopes have provided researchers with indispensible tools across a wide range of disciplines in the physical sciences, ranging from condensed matter physics, to chemistry, mineralogy, materials science, and nanotechnology. In addition, the same instrumentation has extended its reach into the life sciences, and it is this aspect of Ondrej Krivanek's influential contributions that will be surveyed here, together with some personal recollections. Traditionally, electron microscopy has given a purely morphological view of the biological structures that compose cells and tissues. However, the availability of high-performance electron energy loss spectrometers and energy filters offers complementary information about the elemental and chemical composition at the subcellular scale. Such information has proven to be valuable for applications in cell and structural biology, microbiology, histology, pathology, and more generally in the biomedical sciences.},
	language = {en},
	urldate = {2021-09-26},
	journal = {Ultramicroscopy},
	author = {Leapman, Richard D.},
	month = sep,
	year = {2017},
	keywords = {CCD cameras, Detection limits, Detective quantum efficiency, Electron energy loss spectroscopy, Energy-filtered transmission electron microscopy, STEM-EELS, Spectroscopic imaging},
	pages = {180--187},
}
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