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741 results for “MWNautilus”
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#LITOS: A versatile #OpenSource #LED #illumination tool for #optogenetic stimulation:
-32 × 64 LED matrix
-#ESP32-controlled via #WLAN
-usable with different formats of multi-well plates, petri dishes & flasks.https://doi.org/10.1038/s41598-022-17312-x
#DIYbio #lab #instruments #optogenetics -
#OptoPi: An #OpenSource #3Dprinted flexible platform for the analysis of small #animal #behaviour:
-customisable #VIS/#IR #illumination, allows for #optogenetic stimulation
-#imaging by #RaspberryPi #camera
-#Arduino controlhttps://doi.org/10.1016/j.ohx.2023.e00443
#DIYbio #lab #instruments -
Pi-seq: A customizable #OpenSource #multichannel #syringe #pump for #microfluidics:
-no backflow
-#RaspberryPi/#Python-control
-#3Dprinted parts
-cost < 600€
-#Peltier temp. control
-integration in #droplet #scRNAseqhttps://doi.org/10.1016/j.ohx.2024.e00517
#DIYbio #lab #instruments #fluidics -
Pi-seq: A customizable #OpenSource #multichannel #syringe #pump for #microfluidics:
-no backflow
-#RaspberryPi/#Python-control
-#3Dprinted parts
-cost < 600€
-#Peltier temp. control
-integration in #droplet #scRNAseqhttps://doi.org/10.1016/j.ohx.2024.e00517
#DIYbio #lab #instruments #fluidics -
Pi-seq: A customizable #OpenSource #multichannel #syringe #pump for #microfluidics:
-no backflow
-#RaspberryPi/#Python-control
-#3Dprinted parts
-cost < 600€
-#Peltier temp. control
-integration in #droplet #scRNAseqhttps://doi.org/10.1016/j.ohx.2024.e00517
#DIYbio #lab #instruments #fluidics -
Pi-seq: A customizable #OpenSource #multichannel #syringe #pump for #microfluidics:
-no backflow
-#RaspberryPi/#Python-control
-#3Dprinted parts
-cost < 600€
-#Peltier temp. control
-integration in #droplet #scRNAseqhttps://doi.org/10.1016/j.ohx.2024.e00517
#DIYbio #lab #instruments #fluidics -
#µManager: #OpenSource software for control & #automation of #microscope #hardware:
-integrated with #ImageJ
-works with #Leica, #Nikon, #Olympus & #ZeissWeb: https://micro-manager.org/
Github: https://github.com/micro-manager#DIYbio #lab #instruments #MicroManager #microscopy #imaging
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#PatternJ: An #ImageJ #OpenSource toolset for the #automated & quantitative #analysis of regular spatial #patterns found in #cells & #tissue:
-video #tutorial available
https://doi.org/10.1101/2024.01.17.576053
#DIYbio #lab #instruments #imaging #Fiji #biology #microscopy #bioinformatics -
Open Lab Starter Kit Small Laser V2 - An #OpenSource #FabLab produced #LaserCutter:
- 40 W CO2 #laser cutter
- materials: plywood, acrylics & MFD
- cutting area of 400 mm x 600 mm
- #ATtiny / #Teensy -controlledhttps://doi.org/10.1016/j.ohx.2025.e00664
#OLSK #DIYbio #lab #instruments #Maker #hackerspace #DIYtech #DIY -
Conversion of a #3Dprinter for versatile, low-cost #OpenSource #automation of #DipCoating processes:
-performs complex multi-layer procedures using up to 6 different dipping solutions
Article: https://doi.org/10.1063/5.0128116
GitHub: https://github.com/3DPrinter-LabAutomation/Ender3-DipCoater
#DIYbio #DIYchem #3Dprinting #lab #instruments #materials -
Three #OpenSource #3Dprinted #reactors for reproducible batch & continuous-flow photon-induced #chemistry:
- #UFO #reactor: batch reactions
- #Uflow reactor: seamless transition to flow processes
- #Fidget reactor: scale-uphttps://doi.org/10.1039/D4RE00081A
#DIYbio #DIYchem #lab #instruments #photochemistry -
#OpenSource low-cost #3Dprinted easy-to-build XYZ #micro-manipulator platform:
- #microscope stage
- #fiber #optics alignment
- micro #drillingGitHub: https://github.com/0x23/MicroManipulator
YouTube: https://youtu.be/-mgqq0qdDRM
#DIYbio #lab #instruments #Maker #hackerspace #DIYtech #microscopy #imaging #electronics -
A low-cost portable #OpenSource system for 3-axis measurement of static & extremely low #frequency #magnetic fields:
https://doi.org/10.1016/j.ohx.2025.e00683
#DIYtech #DIYbio #lab #instruments #hackerspace #ELF -
...now published in PLOS One:
https://doi.org/10.1371/journal.pone.0318924
#DIYbio #lab #imstruments #microscropy #imaging -
#MolPrint3D: A #Blender add-on for enhanced #3Dprinting of ball-and-stick #molecular models:
https://doi.org/10.1021/acs.jchemed.7b00549
#DIYbio #chemistry #lab #CompChem #bioinformatics #visualization #MINT #STEM #EDU #school #Schule #education -
#LEGO base plates for #STEMMA boards: #3Dprinted holders feature built-in standoffs for press fitting the #PCBs. STEMMA boards plug-&-play with various devices & accessories without soldering:
https://learn.adafruit.com/stemma-lego-base-plates
#DIYtech #electronics #3Dprinting #microcontrollers #SBC -
#TWINKLE: An #OpenSource two-photon #microscope for #teaching & #research:
Preprint: https://doi.org/10.1101/2024.09.23.612766
Github: https://github.com/BrainCOGS/Microscope
#DIYbio #lab #instruments #neuroscience #imaging #LSM #microscopy #laser -
Designing & building a low-cost portable #OpenSource FT-NMR #spectrometer:
https://doi.org/10.1016/j.crci.2019.07.001
#DIYbio #DIYchem #chemistry #lab #instruments #NMR #spectroscopy -
#DIY #ParticleDetector: A mobile low-cost #OpenSource #spectrometer for measuring ionising #radiation like alpha particles & #electrons (energy range: 33 keV to 8 MeV):
-suitable for #CitSci & #education
https://github.com/ozel/DIY_particle_detector
#DIYtech #lab #sensor #instruments #radioactivity #STEM #MINT -
Development of a modular, #OpenSource, reduced-pressure, drift tube #ion #mobility #spectrometer:
-drift tube: ∼1 m
Article (paywalled): https://doi.org/10.1021/jasms.4c00057
Github: https://github.com/bhclowers/LP-IMS
#DIYbio #DIYchem #chemistry #lab #instruments #analytics #DTIMS #MS -
#Automated #photogrammetric close-range #imaging system for small #invertebrates using #acoustic #levitation:
https://doi.org/10.36227/techrxiv.172651022.21831566/v1Unfortunately, so far no detailed built instructions appear available. #DIYbio #lab #instruments #insects #biodiversity #NeRF #FPGA
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#AirQo: An #OpenSource #3Dprinted #particulate matter #air #quality sensing kit designed for low-resource settings:
https://doi.org/10.1016/j.ohx.2023.e00482
#DIYtech #sensor #pollution #FrugalScience #environment #instruments -
#AirQo: An #OpenSource #3Dprinted #particulate matter #air #quality sensing kit designed for low-resource settings:
https://doi.org/10.1016/j.ohx.2023.e00482
#DIYtech #sensor #pollution #FrugalScience #environment #instruments -
4/n In February this year, we got funded (as #HoloDeck project) by #JLU / #HMWK / #HessenHub to develop a #university #course to teach #students & #educators how to construct #molecular materials for this #AR platform.
#DIYbio #lab #OpenSource #chemistry #bioinformatics #AugmentedReality #STEM #MINT -
4/n In February this year, we got funded (as #HoloDeck project) by #JLU / #HMWK / #HessenHub to develop a #university #course to teach #students & #educators how to construct #molecular materials for this #AR platform.
#DIYbio #lab #OpenSource #chemistry #bioinformatics #AugmentedReality #STEM #MINT -
4/n In February this year, we got funded (as #HoloDeck project) by #JLU / #HMWK / #HessenHub to develop a #university #course to teach #students & #educators how to construct #molecular materials for this #AR platform.
#DIYbio #lab #OpenSource #chemistry #bioinformatics #AugmentedReality #STEM #MINT -
4/n In February this year, we got funded (as #HoloDeck project) by #JLU / #HMWK / #HessenHub to develop a #university #course to teach #students & #educators how to construct #molecular materials for this #AR platform.
#DIYbio #lab #OpenSource #chemistry #bioinformatics #AugmentedReality #STEM #MINT -
4/n In February this year, we got funded (as #HoloDeck project) by #JLU / #HMWK / #HessenHub to develop a #university #course to teach #students & #educators how to construct #molecular materials for this #AR platform.
#DIYbio #lab #OpenSource #chemistry #bioinformatics #AugmentedReality #STEM #MINT