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Items: 1 to 20 of 386

1.

A compact STED microscope providing 3D nanoscale resolution.

Wildanger D, Medda R, Kastrup L, Hell SW.

J Microsc. 2009 Oct;236(1):35-43. doi: 10.1111/j.1365-2818.2009.03188.x.

2.

STED microscopy with continuous wave beams.

Willig KI, Harke B, Medda R, Hell SW.

Nat Methods. 2007 Nov;4(11):915-8. Epub 2007 Oct 21.

PMID:
17952088
3.

3D reconstruction of high-resolution STED microscope images.

Punge A, Rizzoli SO, Jahn R, Wildanger JD, Meyer L, Schönle A, Kastrup L, Hell SW.

Microsc Res Tech. 2008 Sep;71(9):644-50. doi: 10.1002/jemt.20602.

PMID:
18512740
4.

Toward fluorescence nanoscopy.

Hell SW.

Nat Biotechnol. 2003 Nov;21(11):1347-55. Review.

PMID:
14595362
5.

STED microscopy with a supercontinuum laser source.

Wildanger D, Rittweger E, Kastrup L, Hell SW.

Opt Express. 2008 Jun 23;16(13):9614-21.

PMID:
18575529
6.

Far-field optical nanoscopy based on continuous wave laser stimulated emission depletion.

Kuang C, Zhao W, Wang G.

Rev Sci Instrum. 2010 May;81(5):053709. doi: 10.1063/1.3432001.

PMID:
20515147
7.

Comparing video-rate STED nanoscopy and confocal microscopy of living neurons.

Lauterbach MA, Keller J, Schönle A, Kamin D, Westphal V, Rizzoli SO, Hell SW.

J Biophotonics. 2010 Jul;3(7):417-24. doi: 10.1002/jbio.201000038.

PMID:
20379984
8.
9.

Two-photon excitation STED microscopy.

Moneron G, Hell SW.

Opt Express. 2009 Aug 17;17(17):14567-73.

PMID:
19687936
10.

Resolution scaling in STED microscopy.

Harke B, Keller J, Ullal CK, Westphal V, Schönle A, Hell SW.

Opt Express. 2008 Mar 17;16(6):4154-62.

PMID:
18542512
11.

Nanoscale resolution in GFP-based microscopy.

Willig KI, Kellner RR, Medda R, Hein B, Jakobs S, Hell SW.

Nat Methods. 2006 Sep;3(9):721-3. Review.

PMID:
16896340
12.

Stimulated emission depletion microscopy with a supercontinuum source and fluorescence lifetime imaging.

Auksorius E, Boruah BR, Dunsby C, Lanigan PM, Kennedy G, Neil MA, French PM.

Opt Lett. 2008 Jan 15;33(2):113-5.

PMID:
18197209
13.

STED nanoscopy with mass-produced laser diodes.

Schrof S, Staudt T, Rittweger E, Wittenmayer N, Dresbach T, Engelhardt J, Hell SW.

Opt Express. 2011 Apr 25;19(9):8066-72. doi: 10.1364/OE.19.008066.

PMID:
21643055
14.

Concepts for nanoscale resolution in fluorescence microscopy.

Hell SW, Dyba M, Jakobs S.

Curr Opin Neurobiol. 2004 Oct;14(5):599-609. Review.

PMID:
15464894
15.

Nanoscale organization of nicotinic acetylcholine receptors revealed by stimulated emission depletion microscopy.

Kellner RR, Baier CJ, Willig KI, Hell SW, Barrantes FJ.

Neuroscience. 2007 Jan 5;144(1):135-43. Epub 2006 Oct 16.

PMID:
17049171
16.

Real-time extended depth of field microscopy.

Botcherby EJ, Booth MJ, Juskaitis R, Wilson T.

Opt Express. 2008 Dec 22;16(26):21843-8.

PMID:
19104617
17.

Axial tomographic confocal fluorescence microscopy.

Heintzmann R, Cremer C.

J Microsc. 2002 Apr;206(Pt 1):7-23.

18.

A new filtering technique for removing anti-Stokes emission background in gated CW-STED microscopy.

Coto Hernàndez I, Peres C, Cella Zanacchi F, d'Amora M, Christodoulou S, Bianchini P, Diaspro A, Vicidomini G.

J Biophotonics. 2014 Jun;7(6):376-80. doi: 10.1002/jbio.201300208. Epub 2014 Mar 18.

19.

High-resolution colocalization of single molecules within the resolution gap of far-field microscopy.

Heinlein T, Biebricher A, Schlüter P, Roth CM, Herten DP, Wolfrum J, Heilemann M, Müller C, Tinnefeld P, Sauer M.

Chemphyschem. 2005 May;6(5):949-55.

PMID:
15884081
20.

A high-resolution, confocal laser-scanning microscope and flash photolysis system for physiological studies.

Parker I, Callamaras N, Wier WG.

Cell Calcium. 1997 Jun;21(6):441-52.

PMID:
9223680

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