Published in
Royal Society of Chemistry, Nanoscale, 47(13), p. 20052-20066, 2021
DOI: 10.1039/d1nr04352h
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Culturing human iPSC-derived neural progenitor cells on nanowire arrays: mapping the impact of nanowire length and array pitch on proliferation, viability, and membrane deformation
Journal article published in 2021 by
Jann Harberts 
,
Katja Bours,
Malte Siegmund,
Carina Hedrich,
Michael Glatza,
Hans R. Schöler ,
Undine Haferkamp ,
Ole Pless ,
Robert Zierold ,
Robert H. Blick
,
Katja Bours,
Malte Siegmund,
Carina Hedrich,
Michael Glatza,
Hans R. Schöler ,
Undine Haferkamp ,
Ole Pless ,
Robert Zierold ,
Robert H. Blick
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Abstract
We tested the growth of human iPSC-derived NPCs on nanowire arrays across a wide range of array characteristics. The proliferation, viability, and interaction with the nanowire arrays were mapped depending on the array pitch and nanowire length.