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Super-resolved FRET and co-tracking in pMINFLUX

Super-resolution pMINFLUX microscopy is combined with FRET and enables co-tracking of two fluorophores without photoswitching.

Fiona Cole
Jonas Zähringer
Philip Tinnefeld
Research09 Feb 2024
Nature Photonics

P: 1-7
Combining pMINFLUX, graphene energy transfer and DNA-PAINT for nanometer precise 3D super-resolution microscopy

Super-resolution microscopy with 3 nm resolution and sub-nanometer localization precision is achieved on DNA origami structures with DNA PAINT and L-PAINT, a novel scheme for fast super-resolution.

Jonas Zähringer
Fiona Cole
Philip Tinnefeld
ResearchOpen Access10 Mar 2023
Light: Science & Applications

Volume: 12, P: 1-8
Addressable nanoantennas with cleared hotspots for single-molecule detection on a portable smartphone microscope

Single-molecule fluorescence currently requires specialized imaging equipment due to the low signal of a single emitter. Here the authors introduce NanoAntennas with Cleared HOtSpots (NACHOS) to boost the signal sufficient for detection of a single emitter by a smartphone, opening the door to point-of-care applications.

Kateryna Trofymchuk
Viktorija Glembockyte
Philip Tinnefeld
ResearchOpen Access11 Feb 2021
Nature Communications

Volume: 12, P: 1-8
Molecule detection with sunlight

Single-molecule detection commonly requires focused laser beams because of the small absorption cross-sections of dye molecules. Now, researchers have shown that thousands of dye molecules in nanoparticles can transfer light excitation to a single acceptor dye, enabling single-molecule detection at sunlight excitation power.

Guillermo P. Acuna
Philip Tinnefeld
News & Views29 Sept 2017
Nature Photonics

Volume: 11, P: 616-618
Breaking the concentration barrier

The combination of a plasmonic nanoantenna and a nanoaperture has merged fluorescence enhancement and spatial confinement to enable single-molecule detection at biologically relevant concentrations.

Philip Tinnefeld
News & Views16 Jun 2013
Nature Nanotechnology

Volume: 8, P: 480-482
Pull-down for single molecules

An innovative marriage of techniques, combining the principles of common protein pull-down assays with single-molecule fluorescence microscopy, opens up new ways of visualizing cellular protein complexes. See Article p.484

Philip Tinnefeld
News & Views25 May 2011
Nature

Volume: 473, P: 461-462
Using DNA origami nanorulers as traceable distance measurement standards and nanoscopic benchmark structures

Mario Raab
Ija Jusuk
Philip Tinnefeld
ResearchOpen Access29 Jan 2018
Scientific Reports

Volume: 8, P: 1-11

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Super-resolved FRET and co-tracking in pMINFLUX

Combining pMINFLUX, graphene energy transfer and DNA-PAINT for nanometer precise 3D super-resolution microscopy

Addressable nanoantennas with cleared hotspots for single-molecule detection on a portable smartphone microscope

Molecule detection with sunlight

Breaking the concentration barrier

Pull-down for single molecules

Using DNA origami nanorulers as traceable distance measurement standards and nanoscopic benchmark structures

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