Device
@Device_CP
Launched in July 2023, Device is a new Cell Press journal that publishes ground-breaking, multi-disciplinary research on applied technology.
ID:1622603901445853187
http://cell.com/device 06-02-2023 14:31:47
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Device invites you to submit your paper to a special issue on #SoftRobotic systems before June 1, 2024: hubs.li/Q02sSV0Z0
#RoboticDevices #FlexibleMechatronics
In this Device report, Ritu Raman and co-workers discuss Mechanically programming anisotropy in engineered muscle with actuating extracellular matrices #RoboSoft2024
hubs.li/Q02swZc20
Looking for a home for your #softrobotics research? Chat with Device editor-in-chief Marshall Brennan Marshall Brennan IEEERoboSoft in San Diego, April 14–17, 2024. DM him to set up an in-person meeting.
Biorobotic hybrid heart as a benchtop cardiac mitral valve simulator – check out this research from Ellen Roche MIT and co-workers, published in Device #RoboSoft2024 hubs.li/Q02swYGt0
The Electrolab: An open-source, modular platform for automated characterization of redox-active electrolytes - check out this collaboration b/w Rodríguez-López Electrochemistry Lab at Illinois & Beckman Institute in Device #ACSSpring2024 hubs.li/Q02pMJhj0
Some nice coverage of the paper here:
Capsule fitted with sensors developed as alternative to endoscopy independent.co.uk/news/health/un…
UoB Engineering
🚨A new paper was published in Device, detailing some work done between Heriot-Watt Engineering & Physical Sciences UoB Engineering and others on a new #ingestible device for high-resolution measurement of gut motility using a microfabricated flexible pressure-sensing skin. 💊
cell.com/device/fulltex…
Excited to share my latest PhD research on utilizing diode to bidirectional program memristors! The 1-diode-1-memristor (1D1R) finally become a feasible architecture to solve actual computing puzzles! Device Marshall Brennan UMass Engineering UMass Institute for Applied Life Sciences
cell.com/device/fulltex…
Help cultivating happy and healthy plants - we developed robust and resilient wearable electronics that can grow with the leaves while record their growth rate remotely and autonomously. The work is a close collaboration with NASA and Andrew Leakey news.illinois.edu/view/6367/3060….