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DELMIC的应用专家是光电联用显微镜和阴极发光显微镜的专家。他们不断与各个领域的科学家合作以开发出世界领先级的显微镜系统。

在我们的媒体中心,您可以阅读DELMIC应用专家撰写的应用说明,技术说明,白皮书和论文。

Delmic

期刊论著

Hackley, Paul C., et al. "Utilization of integrated correlative light and electron microscopy (iCLEM) for imaging sedimentary organic matter". Journal of Microscopy 0 (2017): 1-13. 

Debroye, Elke, et al. "Assessing Photocatalytic Activity at the Nanoscale Using Integrated Optical and Electron Microscopy". Particle & Particle Systems Characterization. 33.7 (2016): 412 - 418.  

Huan, Y. et al"Photoluminescence Blinking of Single-Crystal Methylammonium Lead Iodide Perovskite Nanorods Induced by Surface Traps", ACS Omega 1 (1), 148–159 (2016).

Liv, Nalan, et al. "Electron microscopy of living cells during in-situ fluorescence microscopy", ACS Nano 10, 265-273 (2016).

Sueters-di Meo, J., et al. "Using advanced correlative microscopy to study complex biological samples in Encyclopedia of Analytical Chemistry", eds R.A. Meyers, John Wiley: Chichester, a9473 (2016).

Yuan, Haifeng, et al. "Degradation of Methylammonium Lead Iodide Perovskite Structures through Light and Electron Beam Driven Ion Migration." The Journal of Physical Chemistry Letters 7 (2016): 561-566.

de Boer, Pascal, Jacob P. Hoogenboom, and Ben NG Giepmans. "Correlated light and electron microscopy: ultrastructure lights up!" Nature methods 12.6 (2015): 503-513.

Brama, Elisabeth, et al. "Standard fluorescent proteins as dual-modality probes for correlative experiments in an integrated light and electron microscope." Journal of Chemical Biology 8.4 (2015): 179-188.

Liv, Nalan, et al. "Scanning electron microscopy of individual nanoparticle bio-markers in liquid." Ultramicroscopy 143 (2014): 93-99.

Peddie, Christopher J., et al. "Correlative and integrated light and electron microscopy of in-resin GFP fluorescence, used to localise diacylglycerol in mammalian cells." Ultramicroscopy 143 (2014): 3-14.

Peddie, Christopher J., et al. "Integrated light and scanning electron microscopy of GFP-expressing cells." Methods in cell biology 124 (2014): 363-389.

Voorneveld, Philip W., et al. "Loss of SMAD4 alters BMP signaling to promote colorectal cancer cell metastasis via activation of Rho and ROCK." Gastroenterology 147.1 (2014): 196-208.

Voortman, Lenard M. "Integration Without Compromise." Microscopy Today 22.06 (2014): 30-35.

Liv, Nalan, et al. "Simultaneous correlative scanning electron and high-NA fluorescence microscopy." PLoS One 8.2 (2013): e55707.

Narváez, Angela C., et al. "Cathodoluminescence Microscopy of nanostructures on glass substrates." Optics Express 21.24 (2013): 29968-29978.

Zonnevylle, A. C., et al. "Integration of a high-NA light microscope in a scanning electron microscope." Journal of microscopy 252.1 (2013): 58-70.

Super-resolution correlative microscopy

Johnson, Errin, et al. "Correlative in-resin super-resolution and electron microscopy using standard fluorescent proteins." Scientific reports 5 (2015).

Ligeon, Laure-Anne, et al. "Structured illumination microscopy and correlative microscopy to study autophagy." Methods 75 (2015): 61-68.

Liss, Viktoria, et al. "Self-labelling enzymes as universal tags for fluorescence microscopy, super-resolution microscopy and electron microscopy." Scientific reports 5 (2015).

Paez-Segala, Maria G., et al. "Fixation-resistant photoactivatable fluorescent proteins for CLEM." Nature methods 12.3 (2015): 215-218.

Chang, Yi-Wei, et al. "Correlated cryogenic photoactivated localization microscopy and cryo-electron tomography." Nature methods 11.7 (2014): 737-739.

Löschberger, Anna, et al. "Correlative super-resolution fluorescence and electron microscopy of the nuclear pore complex with molecular resolution." J Cell Sci 127.20 (2014): 4351-4355.

Perkovic, Mario, et al. "Correlative light-and electron microscopy with chemical tags." Journal of structural biology 186.2 (2014): 205-213.

Sochacki, Kem A., et al. "Correlative super-resolution fluorescence and metal-replica transmission electron microscopy." Nature methods 11.3 (2014): 305-308.

Kopek, Benjamin G., et al. "Correlative photoactivated localization and scanning electron microscopy." PLoS One 8.10 (2013): e77209.

Watanabe, Shigeki, et al. "Protein localization in electron micrographs using fluorescence nanoscopy." Nature methods 8.1 (2011): 80-84.

相关网站

http://www.csiro.au/luminescence
Luminescence database for geological materials

http://refractiveindex.info
Database of refractive indices

http://nanophotonics.csic.es
Widgets for calculating transition radiation and surface plasmon generation in a material

http://www.gel.usherbrooke.ca/casino
Electron interaction Monte Carlo simulator


无机材料

Cathodoluminescence Microscopy of Inorganic Solids, B. G. Yacobi and D. B. Holt, Plenum Press (1990).

Cathodoluminescence, Edited by N. Yamamoto, InTech (2018) 


地质学

Cathodoluminescence in Geosciences, M. Pagel et al., Springer (2000).

Application of Cathodoluminescence Imaging to the Study of Sedimentary Rocks, S. Boggs jr. and David Krinsley, Cambridge University Press (2006).

Zircon, J. M. Hanchar and P.W.O. Hoskin, Rev. Mineral. and Geochem. 53 (2003) 1-500.


纳米光子学

Cathodoluminescence microscopy: Optical imaging and spectroscopy with deep-subwavelength resolution, T. Coenen, B. J. M. Brenny, E. J. R. Vesseur, and A. Polman, MRS Bulletin 40, 359 (2015)

Electron Energy Loss Spectroscopy imaging of surface plasmons at the nanometer scale, C. Colliex, O. Stephan, and M. Kociak, Ultramicroscopy, DOI:10.1016/j.ultramic.2015.11.012 (2015).

Angle-resolved cathodoluminescence nanoscopy, T. Coenen, University of Amsterdam (2014)

Electron beams set nanostructures aglow [PDF], Nature 493, 143 (2013)

Principles of nano-optics, L. Novotny, B. Hecht, Cambridge University Press (2012)

Electron beam imaging and spectroscopy of plasmonic nanoantenna resonances, E. J. R. Vesseur, Utrecht University (2011)

Optical excitations in electron microscopy, F. J. García de Abajo, Rev. Mod. Phys. 82, 209 (2010).

Cathodoluminescence plasmon microscopy [PDF], M. Kuttge, Utrecht University (2009)

Classical electrodynamics, J. D. Jackson, John Wiley and Sons (1999).

如果您对上述资源有任何要求或疑问,您可以通过电子邮件联系Daan van Oosten Slingeland:oostenslingeland@delmic.com。

我们致力于研究以及生产最佳性能的显微系统。SECOM 是完美一体化的光电联用显微系统。 SPARC 是世界领先的高性能阴极发光监测系统。