Wang et al., 2013 - Google Patents
Printed carbon nanotubes on polymer films for active origamiWang et al., 2013
View HTML- Document ID
- 3311791034567943289
- Author
- Wang C
- Nosaka T
- Yost B
- Zimmerman B
- Sutton E
- Kincaid E
- Keberle K
- Iqbal Q
- Mendez R
- Markowitz S
- Liu P
- Alford T
- Chan C
- Chan K
- O'Connell M
- Publication year
- Publication venue
- Materials Research Letters
External Links
Snippet
We describe a facile fabrication of solid-state actuators by coating common polymer films with a layer of carbon nanotubes. The composite material actuators are multifunctional energy transducers and were powered by heat, light, or electricity. The maximum observed …
- 239000002041 carbon nanotube 0 title abstract description 44
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Wu et al. | Fast thermal actuators for soft robotics | |
| Wang et al. | Printed carbon nanotubes on polymer films for active origami | |
| Weber et al. | Coin-size coiled-up polymer foil thermoelectric power generator for wearable electronics | |
| Xia et al. | A triboelectric nanogenerator as self-powered temperature sensor based on PVDF and PTFE | |
| Xiao et al. | Construction of a fish‐like robot based on high performance graphene/PVDF bimorph actuation materials | |
| Kim et al. | Structural design of a flexible thermoelectric power generator for wearable applications | |
| Yao et al. | Soft electrothermal actuators using silver nanowire heaters | |
| Rojas et al. | based origami flexible and foldable thermoelectric nanogenerator | |
| US9745965B2 (en) | Printed actuators and uses thereof | |
| Chen et al. | Scaling up nanoscale water-driven energy conversion into evaporation-driven engines and generators | |
| Madan et al. | Enhanced performance of dispenser printed MA n-type Bi2Te3 composite thermoelectric generators | |
| Kim et al. | Wearable thermoelectric generator for harvesting human body heat energy | |
| Chung et al. | Hand‐driven gyroscopic hybrid nanogenerator for recharging portable devices | |
| Cao et al. | High-performance low-voltage soft electrothermal actuator with directly printed micro-heater | |
| Oh et al. | Flexible energy harvester with piezoelectric and thermoelectric hybrid mechanisms for sustainable harvesting | |
| Liu et al. | Design of a wearable thermoelectric generator for harvesting human body energy | |
| Itoigawa et al. | Fabrication of flexible thermopile generator | |
| Yang et al. | A powerful dual-responsive soft actuator and photo-to-electric generator based on graphene micro-gasbags for bioinspired applications | |
| Aouraghe et al. | Low-voltage activating, fast responding electro-thermal actuator based on carbon nanotube film/PDMS composites | |
| Chiba et al. | Heat source free water floating carbon nanotube thermoelectric generators | |
| Sachyani et al. | Enhanced movement of CNT-based actuators by a three-layered structure with controlled resistivity | |
| Jang et al. | Enhanced thermoelectric properties of F4TCNQ doped P3HT and its use as a binder for Sb2Te3 based printed thermoelectric films | |
| Huo et al. | Design and printing of embedded conductive patterns in liquid crystal elastomer for programmable electrothermal actuation | |
| Culebras et al. | Thermal sensor based on a polymer nanofilm | |
| Kim et al. | Triboelectric charge-driven enhancement of the output voltage of BiSbTe-based thermoelectric generators |