All-Printed , Stretchable Zn-Ag 2 O Rechargeable Battery via , Hyperelastic Binder for Self-Powering Wearable Electronics

@inproceedings{Kumar2016AllPrintedS,
  title={All-Printed , Stretchable Zn-Ag 2 O Rechargeable Battery via , Hyperelastic Binder for Self-Powering Wearable Electronics},
  author={Rajan Kumar and Jaewook Shin and Lu Yin and Jung-Min You and Ying Shirley Meng and Joseph Wang},
  year={2016}
}
DOI: 10.1002/aenm.201602096 of highly conductive fillers (>107 S m−1, silver nanowires and carbon nanomaterials) into an elastomeric matrix.[23] Unlike deterministic composite, these devices are intrinsically stretchable as fillers maintain electrical contact by sliding along each other during stretching.[22] Intrinsically stretchable batteries have been reported, but none are completely elastic systems.[16–19] The cycle ability, current density, or areal capacity of these batteries are… CONTINUE READING

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