296   Index


          Covalent organic frameworks (COFs), 245  roller-press method, 170
          CPs. See Conducting polymers (CPs)  specific conductivity, 170–172
          CSA. See Chlorosulfonic acid (CSA)  SWNTs, 170
          CSIRO. See Commonwealth Scientific and   temperature dependence of resistivity,
               Industrial Research Organization   170, 171f
               (CSIRO)                       yarn density, 171–172, 172f
          CTE. See Coefficient of thermal expansion   Electrical double layer, 281–282
               (CTE)                        Electrical resistivity. See Electrical
          CV. See Cyclic voltammetry (CV)        conductivity
          CVD. See Chemical vapor deposition   Electrical testing method, 170
               (CVD)                        Electrochemical capacitors. See also
          Cyclic voltammetry (CV), 247–249, 259  Supercapacitors (SCs)
                                             characteristics, 243
          D                                  specific power vs. specific energy, 243,
          Damage sensor, 215–219                 244f
          Debye length, 281–282             Electrochemical double layer capacitor
          Deformation mechanism, 196             (EDLC), 244–245
          Delamination, 216, 218–219        Electrochemical energy storage devices. See
          Densification method, 163–165, 164f,   Electrochemical capacitors
               170–171                      Electrochemical property, 250–253,
          Densified textile yarn, 144            265–266
          Die-drawn yarn, 145–146, 146f     Electrochemistry, 281–282
          Dimethylformamide (DMF), 30       Electrochemistry excitative actuators, 287
          Dimethyl sulfoxide (DMSO), 30, 116–117  Electrode material, 244–247, 250, 265–266
          Direct-spinning technique, 7–8, 47  Electrolyte ion, 243–244, 250
          Direct-spun cnt fiber, 103, 107–108  Electromagnetic force, 280
          DMSO. See Dimethyl sulfoxide (DMSO)  Electrospinning, 234
          Double-helix CNT yarn, 278        Energy conversion mechanisms, 9, 271,
          Double-layer electrostatic effect, 275  279
          Double-walled carbon nanotubes (DWNT),   electrochemistry, 281–282
               2, 108, 172                   electromechanical, 280, 280f
          Dry-jet wet-spinning method, 89–90  swelling by solvent and vapor, 280–281
          DSSCs. See Dye-sensitized solar cells   thermoexpansion by Joule heating, 281
               (DSSCs)                      Energy density, 243, 246–250, 254–257,
          DWNT. See Double-walled carbon         259–264, 266, 283
               nanotubes (DWNT)             Energy storage device, 7, 248, 266
          Dye-sensitized solar cells (DSSCs), 264–265  Energy storage mechanism, 266
          Dynamic straining, 79–81          Entangled CNT aerogel, 183–184
                                            Entangled CNT network, 149–151
          E                                 Equivalent series resistance (ESR), 250
          Ecoflex™ substrate, 221–222       ESR. See Equivalent series resistance (ESR)
          EDLC. See Electrochemical double layer   Extended Daniels’ model, 189
               capacitor (EDLC)             Extensional viscosity method, 129
          Elastic fiber, 142
          Elastomeric resin, 221–222        F
          Electrical conductivity, 183–184  Fabric actuators, 278–279
            fibers vs. yarns, 172, 173t     Face-centered cubic (FCC), 40
            MWNT-based macrostructures, 170  Facile synthesis process, 247–248
            porosity, 171                   Faradaic redox reaction, 246