@cleanroombro Oh wow haha what are the odds. This is exactly what I do in this paper from a while back. Again I’m sorry but I don’t remember many details. Suppl materials has the fab process but I can try and dig up more specifics from old notes https://t
I LOVE how we discovered this behavior. Way back when, I made a hybrid electrode/microfluidic platform for scalable worm electrophysiology. You can read about this in my first paper from grad school https://t.co/FjrsvqqEjq https://t.co/oX4h1ltaWn
@JRMorber But we discovered that interesting sleep behavior making nanotech for worm electrophysiology! https://t.co/FjrsvqqEjq
RT @HoustonWorms: Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. https://t.co/D0IFuMCnBV
Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. https://t.co/87YTtYLaV4
This paper feels like a lifetime ago but it popped up in the ole twitter feed today. Before I did worm sleep+brainz I made a hybrid nanoelectronic/microfluidic interface for worm electrophysiology.
RT @HoustonWorms: Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. https://t.co/D0IFuMCnBV
Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. https://t.co/D0IFuMCnBV
Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. https://t.co/BLLAuDSPjk
@ranipowers The idea was to slam worms onto an electrode horizontally protruding from the wall (like this pic) for electrophysiology. But we found a much simpler approach than that video! You can check out the paper here https://t.co/FjrsvqqEjq https://t
I was working on a COMPLETELY different project (nanoelectrodes for worm ephys, see https://t.co/FjrsvqqEjq) Every time I put worms in microfluidic chambers for ~1 Hr, they would spontaneously start “passing out.” It’s super easy to see by eye. https://t
"Electrical measurements from large populations of animals would help reveal fundamental properties of the nervous system and neurological diseases." https://t.co/SxDbVEy6h4
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @NatureNano: Nanoscale electrode chip records electrical activity in small organisms. https://t.co/NDDvOB9xtR https://t.co/fbxy4C70Ig
Scalable #electrophysiology in intact small animals with #nanoscale suspended #electrode arrays https://t.co/jsnOBE5JfY
Scalable electrophysiology in intact small animals with nanoscale suspended electrode null https://t.co/Fv5GuBwFKX #DTHSTR
Electrophysiology: Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays https://t.co/W4yfMboygV
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @dgonzales1990: 1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @N…
RT @NatureNano: Nanoscale electrode chip records electrical activity in small organisms. https://t.co/NDDvOB9xtR https://t.co/fbxy4C70Ig
RT @NatureNano: Nanoscale electrode chip records electrical activity in small organisms. https://t.co/NDDvOB9xtR https://t.co/fbxy4C70Ig
RT @NatureNano: Nanoscale electrode chip records electrical activity in small organisms. https://t.co/NDDvOB9xtR https://t.co/fbxy4C70Ig
1st paper as a grad student is out! New method for ephys in #celegans and small animals! Big thanks to @JTRobinsonLab @NatureNano @NSFGRFP https://t.co/zCVMaKekSC
RT @NatureNano: Nanoscale electrode chip records electrical activity in small organisms. https://t.co/NDDvOB9xtR https://t.co/fbxy4C70Ig
Nanoscale electrode chip records electrical activity in small organisms. https://t.co/NDDvOB9xtR https://t.co/fbxy4C70Ig
RT @fruitWormPapers: Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. https://t.co/sRlVMOagZq
Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. https://t.co/sRlVMOagZq
Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. https://t.co/866deqCt5a
Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays. https://t.co/Y0GBfsjRTD
RT @dgonzales1990: 1st paper as a grad student is out! A new electrode technology for recording ephys in worms and other small animals! htt…
RT @dgonzales1990: 1st paper as a grad student is out! A new electrode technology for recording ephys in worms and other small animals! htt…
1st paper as a grad student is out! A new electrode technology for recording ephys in worms and other small animals! https://t.co/oKHOXApyyZ
Scalable electrophysiology in intact small animals with nanoscale suspended electrode arrays https://t.co/g8TguUYkaN