Adapting the 3D-printed Openflexure microscope enables computational super-resolution imaging

Brian R. Patton; Stephen D. Grant; Gemma S. Cairns; Jordan Wistuba

Journal ArticleOPEN ACCESS

Adapting the 3D-printed Openflexure microscope enables computational super-resolution imaging

Patton B
Grant S
Cairns G
et al.

F1000Research (2019) 8

DOI: 10.12688/f1000research.21294.1

15Citations

34Readers

Abstract

We report on a 3D printed microscope, based on a design by the Openflexure project, that uses low cost components to perform fluorescence imaging. The system is sufficiently sensitive and mechanically stable to allow the use of the Super Resolution Radial Fluctuations algorithm to obtain images with resolution better than the diffraction limit. Due to the low-cost components, the entire system can be built for approximately 1200.

Author supplied keywords

3D Printing
Light Microscopy
Open Science
Super-resolution

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CITATION STYLE

APA

Patton, B. R., Grant, S. D., Cairns, G. S., & Wistuba, J. (2019). Adapting the 3D-printed Openflexure microscope enables computational super-resolution imaging. F1000Research, 8. https://doi.org/10.12688/f1000research.21294.1

Adapting the 3D-printed Openflexure microscope enables computational super-resolution imaging

Abstract

Author supplied keywords

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