Rajnicek, Ann M.Zhao, ZhiqiangMoral-Vico, JavierCruz, AnaMcCaig, ColinCasan-Pastor, Nieves2019-07-042019-07-042018-09-05Rajnicek, A M, Zhao, Z, Moral-Vico, J, Cruz, A, McCaig, C & Casan-Pastor, N 2018, 'Controlling Nerve Growth with an Electric Field Induced Indirectly in Transparent Conductive Substrate Materials', Advanced Healthcare Materials, vol. 7, no. 17, 1800473. https://doi.org/10.1002/adhm.2018004732192-2640ORCID: /0000-0001-5151-8254/work/76975402ORCID: /0000-0003-2706-0014/work/76976361http://hdl.handle.net/2164/12507N.C.-P., A.M.R., and C.D.M. conceived and designed the study. N.-C.P., J.M.-V., and A.M.C. prepared the substrate materials and conducted electrochemical and AFM analysis. Z.Z. performed time lapse nerve growth experiments and analysis under the supervision of A.M.R. A.M.R. and N.C.-P. drafted the manuscript from an early draft prepared by Z.Z. All the authors participated in refining drafts. Equal contribution from the University of Aberdeen and Institut de Ciència de Materials de Barcelona-CSIC is acknowledged. This work was funded by the European Commission FP6 NEST Program (Contract 028473), MAT2011-24363 and MAT2015-65192-R from the Spanish Science Ministry, La Marato de TV3 Foundation (Identification Number 110131), and Severo Ochoa Programme for Centres of Excellence in R&D (SEV-2015-0496).117481271engconducting polymersbipolar electrochemistryneurostimulationtransparent electrodesoxidesR Medicine (General)European Commission028473Supplementary DataR1Journal article10.1002/adhm.201800473717