Wu et al., 2021 - Google Patents
Piezoelectric materials for flexible and wearable electronics: A reviewWu et al., 2021
View HTML- Document ID
- 14087097962428830603
- Author
- Wu Y
- Ma Y
- Zheng H
- Ramakrishna S
- Publication year
- Publication venue
- Materials & Design
External Links
Snippet
Self-powered devices and micro-sensors are in high demand for intelligent electronics and flexible wearables for applications in medical healthcare and human–computer interactive robotics. Flexible, stretchable, wearable and breathable high-sensitivity sensors that monitor …
- 239000000463 material 0 title abstract description 169
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Wu et al. | Piezoelectric materials for flexible and wearable electronics: A review | |
| Cao et al. | Piezoelectric nanogenerators derived self‐powered sensors for multifunctional applications and artificial intelligence | |
| Roy et al. | A self-powered wearable pressure sensor and pyroelectric breathing sensor based on GO interfaced PVDF nanofibers | |
| Chen et al. | A stretchable and transparent nanocomposite nanogenerator for self-powered physiological monitoring | |
| Shen et al. | Progress of flexible strain sensors for physiological signal monitoring | |
| Miao et al. | Graphene nanostructure-based tactile sensors for electronic skin applications | |
| Liu et al. | Advance on flexible pressure sensors based on metal and carbonaceous nanomaterial | |
| Le et al. | A review on ZnO-based piezoelectric nanogenerators: Synthesis, characterization techniques, performance enhancement and applications | |
| Dutta et al. | NiO@ SiO2/PVDF: A flexible polymer nanocomposite for a high performance human body motion-based energy harvester and tactile e-skin mechanosensor | |
| Guo et al. | Recent advances in carbon material‐based multifunctional sensors and their applications in electronic skin systems | |
| Wang et al. | Bioinspired interlocked structure-induced high deformability for two-dimensional titanium carbide (MXene)/natural microcapsule-based flexible pressure sensors | |
| Li et al. | Ultrasensitive pressure sensor sponge using liquid metal modulated nitrogen-doped graphene nanosheets | |
| Fan et al. | Flexible nanogenerators for energy harvesting and self‐powered electronics | |
| Liao et al. | Flexible, cuttable, and self-waterproof bending strain sensors using microcracked gold nanofilms@ paper substrate | |
| Li et al. | Recent progress in flexible pressure sensor arrays: From design to applications | |
| Yang et al. | Recent advances in wearable tactile sensors: Materials, sensing mechanisms, and device performance | |
| Wan et al. | Recent progresses on flexible tactile sensors | |
| Wang et al. | Self‐powered wearable piezoelectric monitoring of human motion and physiological signals for the postpandemic era: a review | |
| Han et al. | Materials, electrical performance, mechanisms, applications, and manufacturing approaches for flexible strain sensors | |
| Wan et al. | A review on PVDF nanofibers in textiles for flexible piezoelectric sensors | |
| Kar et al. | Ultraviolet-and microwave-protecting, self-cleaning e-skin for efficient energy harvesting and tactile mechanosensing | |
| Wang et al. | Field effect transistor‐based tactile sensors: From sensor configurations to advanced applications | |
| Tian et al. | MXene-based materials for advanced nanogenerators | |
| Cao et al. | Polysaccharides and proteins-based nanogenerator for energy harvesting and sensing: a review | |
| Wang et al. | Star-nose-inspired multi-mode sensor for anisotropic motion monitoring |