Li et al. Soft Sci 2023;3:22  https://dx.doi.org/10.20517/ss.2023.11            Page 15 of 15

                   analysis. J Neurosci Methods 2004;134:9-21.  DOI  PubMed
               38.      Beccatelli M, Villani M, Gentile F, et al. All-polymeric pressure sensors based on PEDOT:PSS-modified polyurethane foam. ACS
                   Appl Polym Mater 2021;3:1563-72.  DOI
               39.      Pacios R, Marcilla R, Pozo-Gonzalo C, et al. Combined electrochromic and plasmonic optical responses in conducting polymer/metal
                   nanoparticle films. J Nanosci Nanotechnol 2007;7:2938-41.  DOI
               40.      Ha KH, Zhang W, Jang HW, et al. Highly sensitive capacitive pressure sensors over a wide pressure range enabled by the
                   hybrid responses of a highly porous nanocomposite. Adv Mater 2021;33:2103320.  DOI
               41.      Ferrari LM, Ismailov U, Badier J, Greco F, Ismailova E. Conducting polymer tattoo electrodes in clinical electro- and magneto-
                   encephalography. npj Flex Electron 2020;4:4.  DOI
               42.      Ko LW, Chang Y, Wu PL, Lu YC, Yeh CL, Chen YJ. Novel moisture retention sponge electrodes for developing a wireless EEG
                   SSVEP-based BCI system. In: International Automatic Control Conference (CACS), Taoyuan, Taiwan, 2018, pp. 1-6.  DOI
               43.      Compston A. The Berger rhythm: potential changes from the occipital lobes in man, by E. D. Adrian and B. H. C. Matthew (From the
                   Physiological Laboratory, Cambridge). Brain 1934: 57; 355-385. Brain 2010;133:3-6.  DOI
               44.      Walter WG, Cooper R, Aldridge VJ, Mccallum WC, Winter AL. Contingent negative variation: an electric sign of sensorimotor
                   association and expectancy in the human brain. Nature 1964;203:380-4.  DOI  PubMed
               45.      Nagai Y, Critchley HD, Featherstone E, Fenwick PBC, Trimble MR, Dolan RJ. Brain activity relating to the contingent negative
                   variation: an fMRI investigation. Neuroimage 2004;21:1232-41.  DOI
               46.      Garipelli G, Chavarriaga R, Millán JdR. Single trial analysis of slow cortical potentials: a study on anticipation related potentials. J
                   Neural Eng 2013;10:036014.  DOI
               47.      Guo Z, Tan X, Pan Y, et al. Contingent negative variation during a modified cueing task in simulated driving. PLoS One
                   2019;14:e0224966.  DOI  PubMed  PMC
               48.      Khaliliardali Z, Chavarriaga R, Zhang H, Gheorghe LA, Perdikis S, Millán JdR. Real-time detection of driver’s movement intention in
                   response to traffic lights. bioRxiv 2019:443390.  DOI
               49.      Khaliliardali Z, Chavarriaga R, Gheorghe LA, Millán JdR. Action prediction based on anticipatory brain potentials during simulated
                   driving. J Neural Eng 2015;12:066006.  DOI  PubMed
               50.      Hübner R, Töbel L. Conflict resolution in the Eriksen flanker task: similarities and differences to the Simon task. PLoS One
                   2019;14:e0214203.  DOI  PubMed  PMC