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741 results for “MWNautilus”
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#turboLysis: A low-cost #OpenSource small footprint alternative to commercial #bead #beaters for #cell #lysis:
-cost: $40 (compared to >$2000 for commercial devices)
-lyses tough cells like M. #tuberculosis, #yeast & #plantshttps://doi.org/10.1016/j.ohx.2024.e00576
#DIYbio #lab #instruments -
#turboLysis: A low-cost #OpenSource small footprint alternative to commercial #bead #beaters for #cell #lysis:
-cost: $40 (compared to >$2000 for commercial devices)
-lyses tough cells like M. #tuberculosis, #yeast & #plantshttps://doi.org/10.1016/j.ohx.2024.e00576
#DIYbio #lab #instruments -
#turboLysis: A low-cost #OpenSource small footprint alternative to commercial #bead #beaters for #cell #lysis:
-cost: $40 (compared to >$2000 for commercial devices)
-lyses tough cells like M. #tuberculosis, #yeast & #plantshttps://doi.org/10.1016/j.ohx.2024.e00576
#DIYbio #lab #instruments -
#turboLysis: A low-cost #OpenSource small footprint alternative to commercial #bead #beaters for #cell #lysis:
-cost: $40 (compared to >$2000 for commercial devices)
-lyses tough cells like M. #tuberculosis, #yeast & #plantshttps://doi.org/10.1016/j.ohx.2024.e00576
#DIYbio #lab #instruments -
#OpenSprayBot: A HT #OpenSource #paper spray #mass #spectrometry platform for #disease #screening:
-#RUMBA32- & #Arduino-operated
-#3Dprinted parts
-employs commercial #syringe pump & power supplyhttps://doi.org/10.1016/j.ohx.2024.e00551
#DIYbio #lab #instruments #masspec #MS #chem #analytics -
#OpenSprayBot: A HT #OpenSource #paper spray #mass #spectrometry platform for #disease #screening:
-#RUMBA32- & #Arduino-operated
-#3Dprinted parts
-employs commercial #syringe pump & power supplyhttps://doi.org/10.1016/j.ohx.2024.e00551
#DIYbio #lab #instruments #masspec #MS #chem #analytics -
#PRNTDpump: #OpenSource nonelectric spring-driven #syringe #pump with #3Dprinted components for #microfluidic applications:
-no external power requirement (off-grid usage)
-fabrication cost: $25-30https://doi.org/10.1016/j.ohx.2024.e00550
#DIYbio #lab #instruments #microfluidics #FrugalScience -
#PRNTDpump: #OpenSource nonelectric spring-driven #syringe #pump with #3Dprinted components for #microfluidic applications:
-no external power requirement (off-grid usage)
-fabrication cost: $25-30https://doi.org/10.1016/j.ohx.2024.e00550
#DIYbio #lab #instruments #microfluidics #FrugalScience -
#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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#OPTImAL: #Optical projection #tomography implemented for #OpenSource accessibility & low cost:
-#LED excitation
-#motorized rotation stage
-#GPU-based #image reconstruction (#MATLAB/#ASTRA)https://doi.org/10.1098/rsta.2023.0101
#DIYbio #lab #instruments #fluorescence #imaging #MicroManager -
Developing the #OpenFlexure #microscope towards #medical use: Technical & social challenges of developing globally accessible #OpenSource #hardware for #healthcare:
https://doi.org/10.1098/rsta.2023.0257
#DIYBio #lab #instruments #review #microscopy #imaging -
An #OpenSource guide to designing, printing, & incorporating dynamic 3D #molecular #models to #teach #structure-function relationships:
-prime example here: #DNA #supercoiling
https://doi.org/10.1128/jmbe.v19i3.1663
#DIYbio #lab #instruments #education #MINT #STEM #school #3Dprinting #biology -
#BioCloneBot (BCB): A versatile, low-cost & #OpenSource #automated #LiquidHandler:
-#3Dprinted parts
-based on the #Ender3 Pro #3Dprinter
-µL #syringe #pump
-limited to Windows OS
-cost < $2000 CADhttps://doi.org/10.1016/j.ohx.2024.e00516
#DIYbio #lab #automation #instruments #SynBio -
#BioCloneBot (BCB): A versatile, low-cost & #OpenSource #automated #LiquidHandler:
-#3Dprinted parts
-based on the #Ender3 Pro #3Dprinter
-µL #syringe #pump
-limited to Windows OS
-cost < $2000 CADhttps://doi.org/10.1016/j.ohx.2024.e00516
#DIYbio #lab #automation #instruments #SynBio -
Power of #microbes: Utilization of improvised #microbial #FuelCell (IMFC) as an interdisciplinary #learning activity in #teaching #bioelectricity:
https://doi.org/10.1128/jmbe.00146-23
#DIYbio #lab #instruments #MINT #STEM #education #OpenSource #school -
#XRTL: Explore the world of #optics & #interferometry by remotely controlling a #Michelson #interferometer in real-time & observing the interference pattern:
Web: https://xrtl.uni-jena.de/
Github: https://github.com/Lichtwerkstatt/XRTL_SPA -
#XRTL: Explore the world of #optics & #interferometry by remotely controlling a #Michelson #interferometer in real-time & observing the interference pattern:
Web: https://xrtl.uni-jena.de/
Github: https://github.com/Lichtwerkstatt/XRTL_SPA -
#XRTL: Explore the world of #optics & #interferometry by remotely controlling a #Michelson #interferometer in real-time & observing the interference pattern:
Web: https://xrtl.uni-jena.de/
Github: https://github.com/Lichtwerkstatt/XRTL_SPA -
#XRTL: Explore the world of #optics & #interferometry by remotely controlling a #Michelson #interferometer in real-time & observing the interference pattern:
Web: https://xrtl.uni-jena.de/
Github: https://github.com/Lichtwerkstatt/XRTL_SPA -
Inexpensive #OpenSource #DIY #bioprinting in a secondary #school setting:
-based on an #Ender3 V2 #3Dprinter & #Spritzstruder
https://doi.org/10.1128/jmbe.00124-22
#DIYbio #lab #instruments #MINT #STEM #education #tissue #3Dprinting #bioink -
Turbo-Coat: #SpinCoating on a budget - An #OpenSource #3Dprinted all-mechanical & off-grid operating alternative for cost-effective #ThinFilm deposition:
https://doi.org/10.1016/j.ohx.2024.e00547
#DIYbio #lab #instruments #microfluidics -
New #OpenSource water & air #pollution #sensors added to the #SonicKayak #CitizenScience system for low-cost #environmental #mapping:
-#3Dprinted housing
https://doi.org/10.5334/joh.35
#DIYbio #lab #instruments #CitSci #acoustics #marine #biodiversity #turbidity #RaspberryPi #Arduino -
#MOS3S: #Microfluidic-assisted #OpenSource #3Dbioprinting system for the engineering of hierarchical #tissues:
-#3dprinted parts
-#syringe #pumps
-fabrication of cm scale lattice constructshttps://doi.org/10.1016/j.ohx.2024.e00527
#DIYbio #lab #instruments #hydrogel #bioprinter #tissue -
#Ystruder: #OpenSource multifunction #extruder with #sensing & #monitoring capabilities:
-#RaspberryPi-based #wireless control
-cost: ~$150https://doi.org/10.1016/j.ohx.2019.e00080
#DIYbio #lab #instruments #syringe #pump #3Dprinting #Teensy #ESP32 #Python -
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 -
#LVE: Large volume (60 mL), low-cost (~$50) #OpenSource #syringe #pump #extruder for desktop 3D printers:
https://doi.org/10.1016/j.ohx.2018.02.001
#DIYbio #lab #instruments #hydrogel #bioprinting #PrintrBot #FRESH #3Dprinted -
#Enderstruder: An accessible #OpenSource #syringe #extruder compatible with #Ender series 3D printers:
-editable #Cura profiles for 5 commonly used #biomaterials
https://doi.org/10.1101/2023.08.15.553241
#DIYbio #3Dprinter #lab #instruments #bioprinting #bioink #hydrogel #tissue #engineering -
#OpenSource mod of a desktop #FFF printer via 980 nm #NIR #laser addition for upconversion #3Dprinting:
-penetration depths up to 5.8 cm
-printing inside/through existing #3Dprinted parts
-in situ #bioprintinghttps://doi.org/10.1016/j.ohx.2024.e00520
#stereolithography #DIYbio #lab #instruments -
FAR-Pi: #OpenSource #AugmentedReality #goggles for #fluorescence-guided #surgery:
-coupled with novel near #infrared (#NIR) #fluorescent contrast agents
-#RaspPi-/#PiCam-controlhttps://doi.org/10.1101/2022.07.07.498317
#DIYbio #lab #3Dprinted #instruments #laser #LED #medicine #imaging #AR