CMU Array: A 3D nanoprinted, fully customizable high-density microelectrode array platform | Zendy

Mohammad Sadeq Saleh | Zendy; Sandra M. Ritchie | Zendy; Mark A. Nicholas | Zendy; Hailey L. Gordon | Zendy; Chunshan Hu | Zendy; Sanjida Jahan | Zendy; Bin Yuan | Zendy; Rriddhiman Bezbaruah | Zendy; Jay W. Reddy | Zendy; Zabir Ahmed | Zendy; Maysamreza Chamanzar | Zendy; Eric A. Yttri | Zendy; Rahul Panat | Zendy

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CMU Array: A 3D nanoprinted, fully customizable high-density microelectrode array platform

Author(s) -

Mohammad Sadeq Saleh,

Sandra M. Ritchie,

Mark A. Nicholas,

Hailey L. Gordon,

Chunshan Hu,

Sanjida Jahan,

Bin Yuan,

Rriddhiman Bezbaruah,

Jay W. Reddy,

Zabir Ahmed,

Maysamreza Chamanzar,

Eric A. Yttri,

Rahul Panat

Publication year - 2022

Publication title -

science advances

Language(s) - Uncategorized

Resource type - Journals

SCImago Journal Rank - 5.928

H-Index - 146

ISSN - 2375-2548

DOI - 10.1126/sciadv.abj4853

Subject(s) - microelectrode , footprint , computer science , fabrication , multielectrode array , control reconfiguration , electrode , flexibility (engineering) , 3d printing , electrode array , channel (broadcasting) , materials science , electrical impedance , computer hardware , nanotechnology , embedded system , electrical engineering , engineering , telecommunications , medicine , paleontology , chemistry , statistics , alternative medicine , mathematics , pathology , composite material , biology

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