Search
741 results for “MWNautilus”
-
An #OpenSource #automated single-molecule #FRET platform for high-content, #multiwell #plate #screening of #biomolecular #conformations & #dynamics:
Article: https://doi.org/10.1038/s41467-023-42232-3
#autoFRET data analysis: https://github.com/SchlierfLAB/autoFRET
#DIYbio #lab #instruments #imaging -
An #OpenSource #automated single-molecule #FRET platform for high-content, #multiwell #plate #screening of #biomolecular #conformations & #dynamics:
Article: https://doi.org/10.1038/s41467-023-42232-3
#autoFRET data analysis: https://github.com/SchlierfLAB/autoFRET
#DIYbio #lab #instruments #imaging -
An #OpenSource #automated single-molecule #FRET platform for high-content, #multiwell #plate #screening of #biomolecular #conformations & #dynamics:
Article: https://doi.org/10.1038/s41467-023-42232-3
#autoFRET data analysis: https://github.com/SchlierfLAB/autoFRET
#DIYbio #lab #instruments #imaging -
#smfBox: An #OpenSource platform for single-molecule #FRET:
-off the shelves components
-dual #laser: 515 nm, 222 μW & 635 nm, 68 μW
-#LabVIEW & #C control
-#MATLAB & #Python data analysisArticle: https://doi.org/10.1038/s41467-020-19468-4
GitHub: https://craggslab.github.io/smfBox/
#DIYbio #lab #instruments #imaging -
#smfBox: An #OpenSource platform for single-molecule #FRET:
-off the shelves components
-dual #laser: 515 nm, 222 μW & 635 nm, 68 μW
-#LabVIEW & #C control
-#MATLAB & #Python data analysisArticle: https://doi.org/10.1038/s41467-020-19468-4
GitHub: https://craggslab.github.io/smfBox/
#DIYbio #lab #instruments #imaging -
#smfBox: An #OpenSource platform for single-molecule #FRET:
-off the shelves components
-dual #laser: 515 nm, 222 μW & 635 nm, 68 μW
-#LabVIEW & #C control
-#MATLAB & #Python data analysisArticle: https://doi.org/10.1038/s41467-020-19468-4
GitHub: https://craggslab.github.io/smfBox/
#DIYbio #lab #instruments #imaging -
#smfBox: An #OpenSource platform for single-molecule #FRET:
-off the shelves components
-dual #laser: 515 nm, 222 μW & 635 nm, 68 μW
-#LabVIEW & #C control
-#MATLAB & #Python data analysisArticle: https://doi.org/10.1038/s41467-020-19468-4
GitHub: https://craggslab.github.io/smfBox/
#DIYbio #lab #instruments #imaging -
#smfBox: An #OpenSource platform for single-molecule #FRET:
-off the shelves components
-dual #laser: 515 nm, 222 μW & 635 nm, 68 μW
-#LabVIEW & #C control
-#MATLAB & #Python data analysisArticle: https://doi.org/10.1038/s41467-020-19468-4
GitHub: https://craggslab.github.io/smfBox/
#DIYbio #lab #instruments #imaging -
#CyanoStat: An #OpenSource #Arduino-controlled platform for #CO2 regulation in #microbial incubators optimized for #cyanobacteria #cultivation:
-add-on device for off-the-shelf microbial #incubator
-cost: 65 €https://doi.org/10.1016/j.ohx.2025.e00649
#DIYbio #lab #research #science #instruments #microbiology -
#CyanoStat: An #OpenSource #Arduino-controlled platform for #CO2 regulation in #microbial incubators optimized for #cyanobacteria #cultivation:
-add-on device for off-the-shelf microbial #incubator
-cost: 65 €https://doi.org/10.1016/j.ohx.2025.e00649
#DIYbio #lab #research #science #instruments #microbiology -
#CyanoStat: An #OpenSource #Arduino-controlled platform for #CO2 regulation in #microbial incubators optimized for #cyanobacteria #cultivation:
-add-on device for off-the-shelf microbial #incubator
-cost: 65 €https://doi.org/10.1016/j.ohx.2025.e00649
#DIYbio #lab #research #science #instruments #microbiology -
#OpenSLS update: Generation of model #tissues with #dendritic #vascular networks via sacrificial #laser-sintered #carbohydrate templates: https://rdcu.be/b5tHy
Hardware designs: https://github.com/MillerLabFTW/OpenSLS
-R4: specialty powders for biomaterials research
-R3: nylon & wax #SLS-#Python add-on for #Blender to generate bifurcating vascular structures
#DIYbio #OpenSource #lab #3Dprinting #bioprinter #laser #hydrogel #instruments -
#OpenSLS update: Generation of model #tissues with #dendritic #vascular networks via sacrificial #laser-sintered #carbohydrate templates: https://rdcu.be/b5tHy
Hardware designs: https://github.com/MillerLabFTW/OpenSLS
-R4: specialty powders for biomaterials research
-R3: nylon & wax #SLS-#Python add-on for #Blender to generate bifurcating vascular structures
#DIYbio #OpenSource #lab #3Dprinting #bioprinter #laser #hydrogel #instruments -
#OpenSLS update: Generation of model #tissues with #dendritic #vascular networks via sacrificial #laser-sintered #carbohydrate templates: https://rdcu.be/b5tHy
Hardware designs: https://github.com/MillerLabFTW/OpenSLS
-R4: specialty powders for biomaterials research
-R3: nylon & wax #SLS-#Python add-on for #Blender to generate bifurcating vascular structures
#DIYbio #OpenSource #lab #3Dprinting #bioprinter #laser #hydrogel #instruments -
#OpenSLS update: Generation of model #tissues with #dendritic #vascular networks via sacrificial #laser-sintered #carbohydrate templates: https://rdcu.be/b5tHy
Hardware designs: https://github.com/MillerLabFTW/OpenSLS
-R4: specialty powders for biomaterials research
-R3: nylon & wax #SLS-#Python add-on for #Blender to generate bifurcating vascular structures
#DIYbio #OpenSource #lab #3Dprinting #bioprinter #laser #hydrogel #instruments -
#OpenSLS update: Generation of model #tissues with #dendritic #vascular networks via sacrificial #laser-sintered #carbohydrate templates: https://rdcu.be/b5tHy
Hardware designs: https://github.com/MillerLabFTW/OpenSLS
-R4: specialty powders for biomaterials research
-R3: nylon & wax #SLS-#Python add-on for #Blender to generate bifurcating vascular structures
#DIYbio #OpenSource #lab #3Dprinting #bioprinter #laser #hydrogel #instruments -
#OpenSLS: #OpenSource #Arduino-controlled selective #laser #sintering of nylon & #biocompatible #polycaprolactone (PCL):
-potential to produce PCL scaffolds useful for cell studies
Paper: https://doi.org/10.1371/journal.pone.0147399
Web: https://andreasbastian.com/opensls
GitHub: https://github.com/MillerLabFTW/OpenSLS
#DIYbio #lab #3Dprinting #SLS #instruments -
#OpenSLS: #OpenSource #Arduino-controlled selective #laser #sintering of nylon & #biocompatible #polycaprolactone (PCL):
-potential to produce PCL scaffolds useful for cell studies
Paper: https://doi.org/10.1371/journal.pone.0147399
Web: https://andreasbastian.com/opensls
GitHub: https://github.com/MillerLabFTW/OpenSLS
#DIYbio #lab #3Dprinting #SLS #instruments -
#OpenSLS: #OpenSource #Arduino-controlled selective #laser #sintering of nylon & #biocompatible #polycaprolactone (PCL):
-potential to produce PCL scaffolds useful for cell studies
Paper: https://doi.org/10.1371/journal.pone.0147399
Web: https://andreasbastian.com/opensls
GitHub: https://github.com/MillerLabFTW/OpenSLS
#DIYbio #lab #3Dprinting #SLS #instruments -
#OpenSLS: #OpenSource #Arduino-controlled selective #laser #sintering of nylon & #biocompatible #polycaprolactone (PCL):
-potential to produce PCL scaffolds useful for cell studies
Paper: https://doi.org/10.1371/journal.pone.0147399
Web: https://andreasbastian.com/opensls
GitHub: https://github.com/MillerLabFTW/OpenSLS
#DIYbio #lab #3Dprinting #SLS #instruments -
#OpenSLS: #OpenSource #Arduino-controlled selective #laser #sintering of nylon & #biocompatible #polycaprolactone (PCL):
-potential to produce PCL scaffolds useful for cell studies
Paper: https://doi.org/10.1371/journal.pone.0147399
Web: https://andreasbastian.com/opensls
GitHub: https://github.com/MillerLabFTW/OpenSLS
#DIYbio #lab #3Dprinting #SLS #instruments -
#OpenSource iron nitride permanent #magnets made with #DIY ball mill:
https://hackaday.com/2025/06/19/iron-nitride-permanent-magnets-made-with-diy-ball-mill/
#DIYbio #DIYchem #magnetism #magnet #materials #science #lab #instruments -
#OpenIDS: An #OpenSource, #3Dprinted, #Arduino- & #RasPi-controlled inkjet #DNA #microarray synthesizer:
-phosphoramidite #chemistry
-Si wafer substrate
-#GUI control & #camera monitoredPaper: https://doi.org/10.1038/s41598-024-53944-x
GitHub: https://github.com/regiregire/OpenIDS
#DIYbio #DIYchem #lab #instruments #Python -
#OpenIDS: An #OpenSource, #3Dprinted, #Arduino- & #RasPi-controlled inkjet #DNA #microarray synthesizer:
-phosphoramidite #chemistry
-Si wafer substrate
-#GUI control & #camera monitoredPaper: https://doi.org/10.1038/s41598-024-53944-x
GitHub: https://github.com/regiregire/OpenIDS
#DIYbio #DIYchem #lab #instruments #Python -
#OpenIDS: An #OpenSource, #3Dprinted, #Arduino- & #RasPi-controlled inkjet #DNA #microarray synthesizer:
-phosphoramidite #chemistry
-Si wafer substrate
-#GUI control & #camera monitoredPaper: https://doi.org/10.1038/s41598-024-53944-x
GitHub: https://github.com/regiregire/OpenIDS
#DIYbio #DIYchem #lab #instruments #Python -
#OpenIDS: An #OpenSource, #3Dprinted, #Arduino- & #RasPi-controlled inkjet #DNA #microarray synthesizer:
-phosphoramidite #chemistry
-Si wafer substrate
-#GUI control & #camera monitoredPaper: https://doi.org/10.1038/s41598-024-53944-x
GitHub: https://github.com/regiregire/OpenIDS
#DIYbio #DIYchem #lab #instruments #Python -
#OpenIDS: An #OpenSource, #3Dprinted, #Arduino- & #RasPi-controlled inkjet #DNA #microarray synthesizer:
-phosphoramidite #chemistry
-Si wafer substrate
-#GUI control & #camera monitoredPaper: https://doi.org/10.1038/s41598-024-53944-x
GitHub: https://github.com/regiregire/OpenIDS
#DIYbio #DIYchem #lab #instruments #Python -
#Altair-LSFM: A high-res, easy-to-build light-sheet #OpenSource #microscope for sub-cellular #imaging:
-lateral/axial res: ~235/350 nm across 266-µ FOV after deconvolution
Preprint: https://doi.org/10.1101/2025.04.08.647739
Repo: https://thedeanlab.github.io/altair/
#DIYbio #lab #instruments #microscopy #LSM #fluorescence -
#Altair-LSFM: A high-res, easy-to-build light-sheet #OpenSource #microscope for sub-cellular #imaging:
-lateral/axial res: ~235/350 nm across 266-µ FOV after deconvolution
Preprint: https://doi.org/10.1101/2025.04.08.647739
Repo: https://thedeanlab.github.io/altair/
#DIYbio #lab #instruments #microscopy #LSM #fluorescence -
#Altair-LSFM: A high-res, easy-to-build light-sheet #OpenSource #microscope for sub-cellular #imaging:
-lateral/axial res: ~235/350 nm across 266-µ FOV after deconvolution
Preprint: https://doi.org/10.1101/2025.04.08.647739
Repo: https://thedeanlab.github.io/altair/
#DIYbio #lab #instruments #microscopy #LSM #fluorescence