Pingyu Wang

21 posts

Pingyu Wang

@pingyu_wang

PhD Student @StanfordMSE | Been bridging the gap between rigid electronics and biological tissue since 2017

Katılım Mayıs 2017

67 Takip Edilen30 Takipçiler

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Pingyu Wang@pingyu_wang·6 Haz

Our recent work is online at #bioRxiv! We directly printed 6,600 microelectrodes on top of advanced silicon chips at 35-micron pitch. This allows us to interface with neural structures in 3D, at large scale, and with high spatiotemporal resolution. 1/4 #bioelectronics #3Dprinting

bioRxiv@biorxivpreprint

Direct-print three-dimensional electrodes for large-scale, high-density, and customizable neural interfaces biorxiv.org/cgi/content/sh… #bioRxiv

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Nofar Hemed@HemedNofar·13 May

Excited to share that our latest breakthrough in thin-film encapsulation is out now on Advanced Functional Materials! Our research shows how 3D micro-anchors significantly enhance the encapsulation properties and longevity of PaC films. doi.org/10.1002/adfm.2…

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Matthew Gebbie@GebbieMatthew·6 Ara

Interested in how interfacial ions impact electrocatalysis? Check out our Invited Perspective in @ACSCatalysis! Linking Electric Double Layer Formation to Electrocatalytic Activity | ACS Catalysis pubs.acs.org/doi/10.1021/ac…

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Maddie Lee, PhD@m_janelee·30 Kas

Grad School Wrapped 2023

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Eric Zhao@erictzhao·4 Eki

I’m delighted to share our preprint led by @Muhamma51787523 with @Shiyuan75301151 and I in the @zhenanbao group. We introduce multimodal soft elastomer fibers that can be used for motility sensing in the gut and ephys recording in the brain.

Muhammad Khatib@Muhamma51787523

Excited to share our preprint from @zhenanbao group! We transform cm-scale 2D thin films with micro-patterned devices into micron-scale bioelectronic fibers and show their use for sensing and stimulation in the gut and single neuron recording in the brain. biorxiv.org/content/10.110…

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StanfordGWU-UE@StanfordGWU·6 Tem

We won. ❤️✊

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Eric Zhao@erictzhao·7 Haz

My 1st PhD work from the Melosh lab is finally out! In collaboration with @bel_ethz and @HuguenardLab we solved a key bottleneck limiting the scalability of flexible neural interfaces, enabling multi-thousand channel counts at millimeter scales. science.org/doi/10.1126/sc…

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Pingyu Wang@pingyu_wang·6 Haz

This could allow retinal prostheses to produce high-acuity artificial vision, which requires accurate reproduction of the natural activity of the retinal ganglion cells, and may be possible thanks to our ability to precisely target the retinal ganglion cells at high density. 4/4

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Pingyu Wang@pingyu_wang·6 Haz

We used our technology to address a critical challenge when interfacing with the retina. With the customizable array, we could specifically target a group of neurons called the retinal ganglion cells, while avoiding other structures such as the axon bundle layer. 3/4

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Pingyu Wang@pingyu_wang·6 Haz

bioRxiv@biorxivpreprint

Direct-print three-dimensional electrodes for large-scale, high-density, and customizable neural interfaces biorxiv.org/cgi/content/sh… #bioRxiv

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Pingyu Wang@pingyu_wang·14 Nis

We directly printed 3D microelectrode arrays on top of silicon chips for interfacing with the retina. If you're interested in what we have found out so far, please check out my poster at SB09.09.17. #S23MRS #bioelectronics

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Nofar Hemed@HemedNofar·16 Mar

Exciting news! My paper on fully reversible molecularly imprinted polymer sensors based on electrostatic repulsion has just been published! These sensors can repeatedly detect low concentrations of charged molecules in biological environments. Read it now dx.doi.org/10.1021/acsnan…

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Eric Zhao@erictzhao·7 Şub

Check out this comprehensive review from our lab by @HemedNofar on developing tools to study neurodevelopmental disorders. sciencedirect.com/science/articl…

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nature@Nature·25 Kas

📢 📢 Competition time! 📢 📢 Be in with a chance to win a CELESTRON® Telescope by signing up for the Nature Briefing, a daily round-up of science news, opinion and analysis, delivered to your inbox every weekday. Enter now: go.nature.com/3tRKXga

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Pingyu Wang@pingyu_wang·28 Kas

Super excited to share this project we've been working on for the past few years, in collaboration with the Chichilnisky Lab and @bel_ethz. Please stop by my presentation (SB03.07.02, 1:45pm, Wed 11/30). Would love to hear your feedback! #F22MRS #MRSFall2022

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Pingyu Wang@pingyu_wang·6 Kas

Who would have thought you just need a bit of alcohol to connect flexible devices to electronics? Check out this paper first-authored by my lab mate @erictzhao

Eric Zhao@erictzhao

Excited to share my 1st PhD preprint from the Melosh lab in collaboration with @bel_ethz and @HuguenardLab: biorxiv.org/content/10.110…. We solved a key bottleneck limiting the scalability of flexible neural interfaces, enabling a 2200-channel ECoG array in a 3.5 mm x 2.1 mm area.

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Pingyu Wang@pingyu_wang·8 May

@tsdirectory New scammer: pauljeffers8188@gmail.com, Paul Jeffers

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JR@JRart·31 Mar

This project is also about presence and absence, about reality and memories, about impermanence.

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nature@Nature·5 Şub

Happy #YearOfThePig! Sign up for Nature Briefing for a chance to win this pleasingly plush Nature-branded pig, tucked into its own canvas tote bag. go.nature.com/2RBYdQB

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Pingyu Wang@pingyu_wang·30 Oca

@astell_kern Have you decided if KANN will get OpenAPK? It's been 3 months and KANN users are left uninformed about the fate of their devices :(

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Invixion@astell_kern·25 Oca

Our Open App Service, available for A&ultima, A&futura and A&norma players launched with support for 11 apps. The service now supports 21 apps and new apps continue to be tested and supported. For more information, please view our Open App FAQ here - astellnkern.com/eng/content/su…

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Keşfet

@ACSCatalysis @Muhamma51787523 @Shiyuan75301151 @zhenanbao @HuguenardLab @HemedNofar @erictzhao @tsdirectory