Eka
Noviana
ab,
Cynthia P.
McCord
a,
Kaylee M.
Clark
a,
Ilhoon
Jang
ac and
Charles S.
Henry
*a
aDepartment of Chemistry, Colorado State University, Fort Collins, CO, USA. E-mail: Chuck.Henry@colostate.edu
bDepartment of Pharmaceutical Chemistry, School of Pharmacy, Universitas Gadjah Mada, Yogyakarta, Indonesia
cInstitute of Nano Science and Technology, Hanyang University, Seoul, South Korea
First published on 19th November 2019
Correction for ‘Electrochemical paper-based devices: sensing approaches and progress toward practical applications’ by Eka Noviana et al., Lab Chip, 2019, DOI: 10.1039/c9lc00903e.
Fig. 2 Electrode fabrication schemes for: (A) stencil-printed electrodes. Adapted with permission from ref. 29: T. R. de Oliveira, W. T. Fonseca, G. D. Setti and R. C. Faria, Talanta, 2019, 195, 480–489 (Copyright 2019 Elsevier). (B) Inkjet-printed electrodes. Adapted with permission from ref. 60: S. Cinti, N. Colozza, I. Cacciotti, D. Moscone, M. Polomoshnov, E. Sowade, R. R. Baumann and F. Arduini, Sens. Actuators B: Chem., 2018, 265, 155–160 (Copyright 2018 Elsevier). (C) Pencil-drawn electrodes. Adapted with permission from ref. 68: A. A. Dias, T. M. G. Cardoso, C. L. S. Chagas, V. X. G. Oliveira, R. A. A. Munoz, C. S. Henry, M. H. P. Santana, T. Paixao and W. K. T. Coltro, Electroanalysis, 2018, 30, 2250–2257 (Copyright 2018 Wiley). (D) Thermoplastic electrodes. Adapted with permission from ref. 57: E. Noviana, K. J. Klunder, R. B. Channon and C. S. Henry, Anal. Chem., 2019, 91, 2431–2438 (Copyright 2019 American Chemical Society).
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