A conducting polymer with enhanced electronic stability applied in cardiac models | Zendy

Damia Mawad | Zendy; Catherine Mansfield | Zendy; Antonio Lauto | Zendy; Filippo Perbellini | Zendy; Geoffrey W. Nelson | Zendy; Joanne Tonkin | Zendy; Sean O.Z. Bello | Zendy; Damon J. Carrad | Zendy; A. P. Micolich | Zendy; Mohd Muzamir Mahat | Zendy; Jennifer Furman | Zendy; David J. Payne | Zendy; Alexander R. Lyon | Zendy; J. Justin Gooding | Zendy; Siân E. Harding | Zendy; Cesare M. Terracciano | Zendy; Molly M. Stevens | Zendy

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A conducting polymer with enhanced electronic stability applied in cardiac models

Author(s) -

Damia Mawad,

Catherine Mansfield,

Antonio Lauto,

Filippo Perbellini,

Geoffrey W. Nelson,

Joanne Tonkin,

Sean O.Z. Bello,

Damon J. Carrad,

A. P. Micolich,

Mohd Muzamir Mahat,

Jennifer Furman,

David J. Payne,

Alexander R. Lyon,

J. Justin Gooding,

Siân E. Harding,

Cesare M. Terracciano,

Molly M. Stevens

Publication year - 2016

Publication title -

science advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.928

H-Index - 146

ISSN - 2375-2548

DOI - 10.1126/sciadv.1601007

Subject(s) - polyaniline , conductive polymer , electrical conductor , materials science , ex vivo , chitosan , dopant , polymer , nanotechnology , biomedical engineering , doping , chemistry , in vitro , composite material , optoelectronics , medicine , biochemistry , polymerization

Researchers develop sutureless conductive patch with enhanced biostability and effect on heart conduction velocity.

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