FIGURE 23.7

(i) Schematic Illustration of (a) flexible sensor assembling, (b) piezoelectric measurement setup, and (c) re­

cording of radial artery pulse signals of a candidate, (Reprinted with permission [ 47],Copyright © 2020,

American Chemical Society); (ii) sensing performance of the as-prepared PMNP textiles. (a) Real-time output

voltage profile in response to various respiratory patterns, (b) dynamic output voltage waveforms of finger

bending at various angles, (c) dynamic output profile for free-falling table tennis ball with different falling

heights, (d) schematic illustration of PMNP textiles for active facial expression identification, (e) real-time output

profile in response to frown, (f) real-time output profile in response to smiling. (g) photograph of PMNP textiles

attached on the keyboard, (h) dynamic voltage profiles of three adult volunteers when typing the word “DIY,”

(i) dynamic voltage profiles when crossing and ticking on the touch screen of a smartphone (Reprinted with

permission [ 48], Elsevier and Copyright clearance Center, January 26, 2022); (iii) schematic representation

depicting the strategy adopted to guide the EF-mediated stem cell differentiation. The tailored conductivity,

surface topography, and electroactivity together, could switch the EF-mediated lineage commitment toward

neuron-like and glial-like cells (Reprinted with permission [66], Copyright © 2020, American Chemical Society).

Conducting Polymer-Based Biocomposites

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